There are hundreds of these retrotransposon sequences in our genome. Why not permanently inactivate them, like some species have done? They must have some adaptive value for us, the scientists thought.
They used reverse transcriptase inhibiting drugs, commonly used to suppress HIV replication in patients, to inhibit the replication of retrotransposons in mice. These drugs did not alter blood cell production in normal mice but blocked the increase in blood-forming stem cells and red blood cell production during pregnancy, leading to anemia.
As researchers further explored mechanisms activating blood cell production, they found retrotransposons were being detected by the immune sensors, cGAS and STING. These sensors induce interferon production after viral infection or replication of retrotransposons.

They found the retrotransposons turned on just enough interferon to activate blood cell production.
What these scientists discovered in mice is also true in humans, they found.
Earlier they also found that estrogen contributes to blood-forming stem cell activation during pregnancy.

Julia Phan et al, Retrotransposons are co-opted to activate hematopoietic stem cells and erythropoiesis, Science (2024). DOI: 10.1126/science.ado6836

Part2

Dysfunction of neurons in the amygdala may be behind negative perceptions of the environment

Between 15% and 20% of people experience a depressive episode—"a state of deep, lasting distress"—at some point in their lives. But 30% of patients with depression are resistant to conventional medical treatment with antidepressants. To develop novel therapies, we need to improve our understanding of the mechanisms underlying depression, especially those that induce a "negativity bias.

One of the characteristics of depression is a tendency to perceive sensory stimuli and everyday situations in an excessively negative way. Depression causes patients to perceive the world and all sensory stimuli in an excessively negative way—pleasant stimuli become less attractive and unpleasant stimuli become more undesirable—and this contributes to the development and maintenance of depressive symptoms.

But the mechanisms underpinning this "negativity bias," which can fuel the development of depressive symptoms, had previously remained largely unknown until now.

To shed light on the question, scientists explored the amygdala and observed how it functions during depressive episodes.

Their findings suggest that a depressive state alters certain specific neural circuits, leading to a reduction in the activity of neurons involved in pleasant perceptions of positive stimuli and an overactivation of those responsible for the perception of negative stimuli.

We now know that the amygdala is not only involved in our emotional response to environmental stimuli, fostering attraction or repulsion, but that it also plays a role in depression.

These results, which could pave the way for the development of new drugs for people resistant to conventional therapy, were published in the journal Translational Psychiatry in September 2024.

The scientists revealed that in a depressive state, the neurons preferentially involved in encoding positive stimuli are less active than normal, while the neurons preferentially involved in encoding negative stimuli are much more recruited. In other words, depression seems to induce a dysfunction of the amygdala circuits involved in encoding environmental stimuli, and this in turn further encourages the negative valence bias typical of depression.

These data are extremely valuable for the development of novel treatments for people with depression and also for those with bipolar disorder, who experience disproportionately lengthy and severe mood swings.

Mathilde Bigot et al, Disrupted basolateral amygdala circuits supports negative valence bias in depressive states, Translational Psychiatry (2024). DOI: 10.1038/s41398-024-03085-6

What animal societies can teach us about aging

Red deer may become less sociable as they grow old to reduce the risk of picking up diseases, while older house sparrows seem to have fewer social interactions as their peers die off, according to new research showing that humans are not the only animals to change their social behaviour as they age.

A collection of 16 studies, including six from the University of Leeds, have been published recently as part of a special issue of the Philosophical Transactions of the Royal Society B, investigating aging and society across the natural world.

One study into red deer shows that as older female deer become less and less social with age, they are cutting down on competition and reducing their risk of parasite infection. The study used data from a long-running project tracking a wild herd on the Scottish island of Rum.

 Like people who firmly believe in social contacts, while previous research has often considered the process of becoming less social with age, known as "social aging," as potentially negative, these new meta studies show changing habits could in fact bring benefits.

These kinds of effects might be expected across societies, where individuals might avoid social interactions as they become more vulnerable to the costs of infection. Animal populations are a great way of considering the fundamental rules of how aging may shape societies in Nature.

Like older humans who cut down their social interactions to avoid infections like COVID-19—"shielding" during the pandemic in 2020 and 2021—the less sociable older does are less likely to pick up certain parasite infections. "Wild animals provide a good model system for considering the costs and benefits of changing social behavior with age, and in this case may provide an example of aging individuals reducing their social connections to avoid disease and other forms of suffering. 

The special edition is an international collaboration and looks at how individuals of different species age, how this shapes their social interactions, and what this means for their societies.

Even the common garden bird, the house sparrow, changes its social behaviour as it ages, according to another paper in the collection.

This study is one of the first to suggest that birds, like mammals, also reduce the size of their social network as they age. Specifically, the number of friendships, and how central a bird is to the wider social network, declined with age.

The results may be driven by existing friends of the same cohort groups dying as they age, and because it takes more effort for older birds to make friendships with fewer same-age individuals available to bond with. Conversely, the benefits of social connections may be lower than they are for younger individuals, who may come to rely on those connections for things like reproduction or information later in life.

The research collection shows that the social effects of aging are a very general biological phenomenon, extending even to fruit flies.

So nature tells us "cut social interactions" for your own good after a certain age. 

Josh A. Firth et al, Understanding age and society using natural populations, Philosophical Transactions of the Royal Society B: Biological Sciences (2024). DOI: 10.1098/rstb.2022.0469

Scientists discover a promising way to create new superheavy elements

What is the heaviest element in the universe? Are there infinitely many elements? Where and how could superheavy elements be created naturally?

The heaviest abundant element known to exist is uranium, with 92 protons (the atomic number "Z"). But scientists have succeeded in synthesizing super heavy elements  up to oganesson, with a Z of 118. Immediately before it are livermorium, with 116 protons and tennessine, which has 117.

All have short half-lives—the amount of time for half of an assembly of the element's atoms to decay—usually less than a second and some as short as a microsecond. Creating and detecting such elements is not easy and requires powerful particle accelerators and elaborate measurements.

But the typical way of producing high-Z elements is reaching its limit. In response, a group of scientists from the United States and Europe have come up with a new method to produce superheavy elements beyond the dominant existing technique. Their work, done at the Lawrence Berkeley National Laboratory in California, was published in Physical Review Letters.

Part 1

The island of stability is a region where superheavy elements and their isotopes—nuclei with the same number of protons but different numbers of neutrons—may have much longer half-lives than the elements near it. It's been expected to occur for isotopes near Z=112.

While there have been several techniques to discover superheavy elements and create their isotopes, one of the most fruitful has been to bombard targets from the actinide series of elements with a beam of calcium atoms, specifically an isotope of calcium, 48-calcium (48Ca), that has 20 protons and 28 (48 minus 20) neutrons. The actinide elements have proton numbers from 89 to 103, and 48Ca is special because it has a "magic number" of both protons and neutrons, meaning their numbers completely fill the available energy shells in the nucleus.
Proton and/or neutron numbers being magic means the nucleus is extremely stable; for example, 48Ca has a half-life of about 60 billion billion (6 x 1019) years, far larger than the age of the universe. (By contrast, 49Ca, with just one more neutron, decays by half in about nine minutes.)

These reactions are called "hot-fusion" reactions. Another technique saw beams of isotopes from 50-titanium to 70-zinc accelerated onto targets of lead or bismuth, called "cold-fusion" reactions. Superheavy elements up to oganesson (Z=118) were discovered with these reactions.

But the time needed to produce new superheavy elements, quantified via the cross section of the reaction which measures the probability they occur, was taking longer and longer, sometimes weeks of running time. Being so close to the predicted island of stability, scientists need techniques to go further than oganesson. Targets of einsteinium or fermium, themselves superheavy, cannot be sufficiently produced to make a suitable target.
Part 2

Theoretical models of the nucleus have successfully predicted the production rates of superheavy elements below oganesson using actinide targets and beams of isotopes heavier than 48-calcium. These models also agree that to produce elements with Z=119 and Z=120, beams of 50-titanium would work best, having the highest cross sections.

But not all necessary parameters have been pinned down by theorists, such as the necessary energy of the beams, and some of the masses needed for the models haven't been measured by experimentalists. The exact numbers are important because the production rates of the superheavy elements could otherwise vary enormously.

Several experimental efforts to produce atoms with proton numbers from 119 to 122 have already been attempted. All have been unsatisfactory, and the limits they determined for the cross sections have not allowed different theoretical nuclear models to be constrained. Gates and his team investigated the production of isotopes of livermorium (Z=116) by beaming 50-titanium onto targets of 244-Pu (plutonium).
Part 3

Using the 88-Inch Cyclotron accelerator at Lawrence Berkeley National Laboratory, the team produced a beam that averaged 6 trillion titanium ions per second that exited the cyclotron. These impacted the plutonium target, which had a circular area of 12.2 cm, over a 22-day period. Making a slew of measurements, they determined that 290-livermorium had been produced via two different nuclear decay chains.

"This is the first reported production of a SHE [superheavy element] near the predicted island of stability with a beam other than 48-calcium," they concluded. The reaction cross section, or probability of interaction, did decrease, as was expected with heavier beam isotopes, but "success of this measurement validates that discoveries of new SHE are indeed within experimental reach."
The discovery represents the first time a collision of non-magic nuclei has shown the potential to create other superheavy atoms and isotopes (both), hopefully paving the way for future discoveries. About 110 isotopes of superheavy elements are known to exist, but another 50 are expected to be out there, waiting to be uncovered by new techniques such as this.

J. M. Gates et al, Toward the Discovery of New Elements: Production of Livermorium ( Z=116 ) with Ti50, Physical Review Letters (2024). DOI: 10.1103/PhysRevLett.133.172502

Part 4

Scientists transport protons in truck, paving way for antimatter delivery

Antimatter might sound like something out of science fiction, but at the CERN Antiproton Decelerator (AD), scientists produce and trap antiprotons every day. The BASE experiment can even contain them for more than a year—an impressive feat considering that antimatter and matter annihilate upon contact.

The CERN AD hall is the only place in the world where scientists are able to store and study antiprotons. But this is something that scientists working on the BASE experiment hope to change one day with their subproject BASE-STEP: an apparatus designed to store and transport antimatter.

Most recently, the team of scientists and engineers took an important step towards this goal by transporting a cloud of 70 protons in a truck across CERN's main site.

If you can do it with protons, it will also work with antiprotons. The only difference is that you need a much better vacuum chamber for the antiprotons.

This is the first time that loose particles have been transported in a reusable trap that scientists can then open in a new location and then transfer the contents into another experiment. The end goal is to create an antiproton-delivery service from CERN to experiments located at other laboratories.

Part 1

Antimatter is a naturally occurring class of particles that is almost identical to ordinary matter except that the charges and magnetic properties are reversed.
According to the laws of physics, the Big Bang should have produced equal amounts of matter and antimatter. These equal-but-opposite particles would have quickly annihilated each other, leaving a simmering but empty universe. Physicists suspect that there are hidden differences that can explain why matter survived and antimatter all but disappeared.
The BASE experiment aims to answer this question by precisely measuring the properties of antiprotons, such as their intrinsic magnetic moment, and then comparing these measurements with those taken with protons. However, the precision the experiment can achieve is limited by its location.

The accelerator equipment in the AD hall generates magnetic field fluctuations that limit how far we can push our precision measurements.
If scientists want to get an even deeper understanding of the fundamental properties of antiprotons, they need to move out.
This is where BASE-STEP comes in. The goal is to trap antiprotons and then transfer them to a facility where scientists can study them with a greater precision. To be able to do this, they need a device that is small enough to be loaded onto a truck and can resist the bumps and vibrations that are inevitable during ground transport.
The current apparatus—which includes a superconducting magnet, cryogenic cooling, power reserves, and a vacuum chamber that traps the particles using magnetic and electric fields—weighs 1,000 kilograms and needs two cranes to be lifted out of the experimental hall and onto the truck. Even though it weighs a ton, BASE-STEP is much more compact than any existing system used to study antimatter. For example, it has a footprint that is five times smaller than the original BASE experiment, as it must be narrow enough to fit through ordinary laboratory doors.
Part 2

During the rehearsal, the scientists used trapped protons as a stand-in for antiprotons. Protons are a key ingredient of every atom, the simplest of which is hydrogen (one proton and one electron.) But storing protons as loose particles and then moving them onto a truck is a challenge because any tiny disturbance will draw the unbonded protons back into an atomic nucleus.

When it's transported by road, our trap system is exposed to acceleration and vibrations, and laboratory experiments are usually not designed for this. Scientists needed to build a trap system that is robust enough to withstand these forces, and they have now put this to a real test for the first time.
the biggest potential hurdle isn't currently the bumpiness of the road but traffic jams.

If the transport takes too long, they will run out of helium at some point.
Liquid helium keeps the trap's superconducting magnet at a temperature below 8.2 Kelvin: its maximum operating temperature. If the drive takes too long, the magnetic field will be lost and the trapped particles will be released and vanish as soon as they touch ordinary matter.
Eventually, they want to be able to transport antimatter to our dedicated precision laboratories at the Heinrich Heine University in Düsseldorf, which will allow us to study antimatter with at least 100-fold improved precision
In the longer term, they want to transport it to any laboratory in Europe. This means that they need to have a power generator on the truck. They are currently investigating this possibility.
After this successful test, which included ample monitoring and data-taking, the team plans to refine its procedure with the goal of transporting antimatter next year.

"This is a totally new technology that will open the door for new possibilities of study, not only with antiprotons but also with other exotic particles, such as ultra-highly-charged ions.
Another experiment, PUMA, is preparing a transportable trap. Next year, it plans to transport antiprotons 600 meters from the ADH hall to CERN's ISOLDE facility in order to use them to study the properties and structure of exotic atomic nuclei.
Source: CERN
Part 3

Almost a third of asthma cases are attributable to long-term exposure to fine particular matter, global study suggests

Drawing on evidence involving about 25 million people worldwide, an international research team led by the Max Planck Institute for Chemistry demonstrates that long-term exposure to ambient PM_2.5 significantly increases the risk of asthma, affecting both children and adults. The researchers find that approximately 30% of new asthma cases worldwide were linked to fine particulate matter (PM_2.5) exposure, highlighting the dramatic threat air pollution poses to public health.

Asthma is currently an incurable disease that severely impairs quality of life, with recurring symptoms such as wheezing, coughing, and shortness of breath. As of today, about 4% of the world's population suffers from asthma, with more than 30 million new cases arising annually.

Evidence suggests that long-term exposure to air pollution of fine particulate matter (PM_2.5) is an important risk factor for developing asthma.

Researchers have conducted a comprehensive global meta-analysis  and found this is correct. 

The research team determined the data from 68 epidemiological studies from 2019 conducted across 22 countries, including those in North America, Western Europe, East Asia, South Asia, and Africa. They conclude that there is now sufficient evidence with high confidence level to support an association between long-term exposure to ambient PM_2.5 and asthma.

Ruijing Ni et al, Long-term exposure to PM2.5 has significant adverse effects on childhood and adult asthma: A global meta-analysis and health impact assessment, One Earth (2024). DOI: 10.1016/j.oneear.2024.09.022

Is it true that trees pollute the air?

(and Why Your Coworker's Scientific Citations Don't Mean They're Right)

Bird wings inspire new approach to flight safety

Taking inspiration from bird feathers,  engineers have found that adding rows of flaps to a remote-controlled aircraft's wings improves flight performance and helps prevent stalling, a condition that can jeopardize a plane's ability to stay aloft.

These flaps can both help the plane avoid stall and make it easier to regain control when stall does occur.

The flaps mimic a group of feathers, called covert feathers, that deploy when birds perform certain aerial maneuvers, such as landing or flying in a gust. Biologists have observed when and how these feathers deploy, but no studies have quantified the aerodynamic role of covert feathers during bird flight.

Engineering studies have investigated covert-inspired flaps for improving engineered wing performance, but have mostly neglected that birds have multiple rows of covert feathers. The present study has advanced the technology by demonstrating how sets of flaps work together and exploring the complex physics that governs the interaction.

This new  the technique is an easy and cost-effective way to drastically improve flight performance without additional power requirements.

The covert flaps deploy or flip up in response to changes in airflow, requiring no external control mechanisms. They offer an inexpensive and lightweight method to increase flight performance without complex machinery. They're essentially just flexible flaps that, when designed and placed properly, can greatly improve a plane's performance and stability.

Part 1

A wing's teardrop form forces air to flow quickly over its top, creating a low-pressure area that pulls the plane up. At the same time, air pushes against the bottom of the wing, adding upward pressure. Designers call the combination of this pull and push "lift." Changes in flight conditions or a drop in an aircraft's speed can result in stall, rapidly reducing lift.

The study uncovered the physics by which the flaps improved lift and identified two ways that the flaps control air moving around the wing. One of these control mechanisms had not been previously identified.

The researchers uncovered the new mechanism, called shear layer interaction, when they were testing the effect of a single flap near the front of the wing. They found that the other mechanism is only effective when the flap is at the back of the wing.

The researchers tested configurations with a single flap and with multiple flaps ranging from two rows to five rows. They found that the five-row configuration improved lift by 45%, reduced drag by 30% and enhanced the overall wing stability.

The discovery of this new mechanism unlocked a secret behind why birds have these feathers near the front of the wings and how we can use these flaps for aircraft. Especially because we found that the more flaps you add to the front of the wing, the higher the performance benefit.

This is the power of bioinspired design!

Wissa, Aimy, Distributed feather-inspired flow control mitigates stall and expands flight envelope, Proceedings of the National Academy of Sciences (2024). DOI: 10.1073/pnas.2409268121. doi.org/10.1073/pnas.2409268121

Part 2

Cat Ba langurs' unique ability to drink salt water

A new study shows the remarkable adaptability of the critically endangered Cat Ba langurs. Despite low genetic diversity, the langurs have retained key genetic traits that help them survive in their isolated environment on Cat Ba Island in Vietnam. One of these remarkable adaptations is the ability to drink salt water.

The study is dedicated to the genetic challenges faced by the fewer than 100 remaining individuals of this primate species. Due to the dramatic decline of its population, the species suffers from genetic impoverishment, high inbreeding and a potentially increased susceptibility to disease. Nevertheless, analysis of their genetic information shows that genetic diversity has been maintained in functionally important areas of their genetic information. This enables the Cat Ba langurs (Trachypithecus poliocephalus) to continue to cope adequately with changing environmental conditions.

Their adaptability makes the animals unique. Drinking salt water is an outstanding example of this.

This extraordinary ability is a direct consequence of their isolated island home, where there are only limited freshwater sources. The researchers show that changes in certain genes have probably increased tolerance to salt water. These genetic adaptations enable langurs to cope with the high sodium content of salt water and thus contribute to their survival in this unique environment.

The research is published in the journal Nature Communications.

 Liye Zhang et al, Genomic adaptation to small population size and saltwater consumption in the critically endangered Cat Ba langur, Nature Communications (2024). DOI: 10.1038/s41467-024-52811-7

GPS systems often mislead drivers

We know this for sure!

Drivers blindly follow GPS instructions instead of paying attention to signs. Blindly following GPS navigation can lead to difficult situations on the road. A research team has analyzed such incidents and is in favour of delegating more personal responsibility to drivers.

As useful as GPS-controlled navigation systems are in everyday life, they often lead people astray and trigger outrage. Sometimes they even guide cars and lorries onto very challenging roads, unnecessarily endangering everyone involved.

(We know how the GPS took vehicles into water bodies, strange areas and put people into dangerous situations)

This is a technology that is used by more than a billion people worldwide. That's why it's important to understand the social implications.

Since there is no publicly available documentation, the researchers used a different method: they systematically combed the LexisNexis news database for newspaper articles and internet posts about incidents in which navigation systems caused chaos and problems. To avoid complications due to translations, they only looked at English texts, which unsurprisingly reported mostly on events in English-speaking countries. But as the examples above illustrate, such incidents also occur in other areas around the world. Yeah, in India for sure. 

In societies where navigation apps are increasingly used, we can expect to see more of these types of situations in the future.

Part 1

In total, the researchers identified ninety (only 90? Come on, we ourselves 're involved in atleast 10, these researchers don't know about the incidents in India, then) incidents between 2010 and 2023. The team then conducted a systematic content analysis of the articles to categorize the problems mentioned: half of the traffic disruptions reported were traffic jams, while a third were caused by through traffic of heavy vehicles, especially on roads that were not designed for such volumes of traffic.

Reports of traffic rule violations and disturbances to residents were less common. The latter were caused, for example, by long lines of cars preventing drivers from being able to back out of their private parking spaces.

The safety hazards mentioned in the newspaper reports concerned accidents in a third of cases, but also damage to road surfaces and pollution.

Through studies such as this one, the team not only wants to categorize the problems perceived by society, but also develop solutions. The evaluation showed that in most cases, the aim is only to make adjustments at the local level.

The research team also has another suggestion that does not completely delegate responsibility to technology: the system could provide users with additional information about the suggested routes—and then let them choose for themselves.
It would be nice if people could voluntarily choose to be more considerate by providing the full information, they say.

Eve Schade et al, Traffic jam by GPS: A systematic analysis of the negative social externalities of large-scale navigation technologies, PLOS ONE (2024). DOI: 10.1371/journal.pone.0308260

Part 2

**

Scientists uncover key mechanism in pathogen defense, paving way for new antimicrobial strategies

Researchers have made a significant breakthrough in understanding how certain pathogens defend themselves against the host's immune system.

This  new work focuses on the role of a group of enzymes known as zinc-dependent macrodomains (Zn-Macros) in reversing ADP-ribosylation, a vital cellular process.

This discovery could lead to innovative treatments to combat antimicrobial resistance, a growing global health threat. The work is published in the Journal of Biological Chemistry.

ADP-ribosylation is a reversible modification of proteins and DNA that regulates important cellular responses to stress. While this signaling mechanism is well-studied in higher eukaryotes, where it regulates responses to DNA damage, reactive oxygen species and infection, the importance of its role in microorganisms is also becoming increasingly evident, which includes the regulation of the host immune response, microbial immune evasion and adaptation to specific hosts.

The research team used a combination of phylogenetic, biochemical, and structural approaches to investigate the function of Zn-Macros. These enzymes are found in some pathogenic microbes and are essential for removing ADP-ribosyl modifications, thereby helping the pathogens survive oxidative stress.

The study revealed that the catalytic activity of Zn-Macros is strictly dependent on a zinc ion within the active site of these enzymes. The researchers also identified structural features that contribute to substrate selectivity within different types of Zn-Macro enzymes, which may be exploited for the development of future therapies.

Part 1

The findings have significant implications for the fight against bacterial and fungal infections that pose an increasing risk to human health, a problem that is exacerbated by the development of antimicrobial resistance and the emergence of multidrug-resistant strains. The World Health Organization has published lists of priority pathogens that pose the greatest risk, emphasizing the need for new antimicrobial strategies.

Addressing antimicrobial resistance will require a multifaceted strategy, including the discovery and characterization of new antimicrobial targets, along with assessing their potential for therapeutic use in innovative (co-)treatment approaches.

The authors of the study suggest that targeting the Zn-Macro pathway could reduce the virulence of major human pathogens, including Staphylococcus aureus and Streptococcus pyogenes. These pathogens rely on the crosstalk between lipoic acid metabolism and ADP-ribosylation signaling for their defense mechanisms. Disrupting this pathway could enhance the effectiveness of existing treatments and provide new therapeutic options.
The study's findings represent a significant step forward in the fight against antimicrobial resistance and highlight the potential of Zn-Macros as therapeutic targets.

Antonio Ariza et al, Evolutionary and molecular basis of ADP-ribosylation reversal by zinc-dependent macrodomains, Journal of Biological Chemistry (2024). DOI: 10.1016/j.jbc.2024.107770

Part 2

Scientists create a molecular switch that can control cell division on demand outside of a living system

A living cell is a bustling metropolis, with countless molecules and proteins navigating crowded spaces in every direction. Cell division is a grand event which completely transforms the landscape. The cell starts behaving like the host of an international competition, reconfiguring entire streets, relocating buildings and rerouting its transportation systems.

For decades, researchers have been captivated by the cell's ability to organize such a dramatic transformation. Central to the process is the microtubule cytoskeleton, a network of fibers which provides structural support and facilitates movement within the cell, ensuring that chromosomes are correctly segregated. Errors in cell division can lead to a wide array of diseases and disorders, including cancer or genetic disorders.

Yet despite its critical importance, the exact mechanisms governing how cells reorganize their insides during cell division have not been studied well. How does a cell know when and how to rearrange its internal scaffolding? What are the molecular signals governing these changes? Who are the key players conducting it all? According to new research, some of the changes come down to a surprisingly simple and elegant system—the flip of a molecular switch. The findings are published in Nature Communications .
At the heart of the discovery is the protein PRC1. During cell division, PRC1 plays a key role in organizing cell division. It crosslinks microtubules, helping to form a structure in the crucial region where microtubules overlap and chromosomes are separated.

Part 1

But PRC1 doesn't act alone. Its activity is tightly controlled to ensure that microtubules assemble at the right time and place. The protein is controlled through a process called phosphorylation, where enzymes add small chemical tags to specific regions on its surface. These molecular tags can turn PRC1's activity up or down.
Scientists now discovered that manipulating the phosphorylation state of PRC1 can induce large-scale transitions between different states of cytoskeleton organization that are needed for cell division. The changes take only a few minutes to complete.
The researchers made this discovery by developing a new laboratory system where they can precisely control and even reverse the transitions of the cytoskeletal structures associated with different stages of cell division outside of a living system. The new technology can help researchers study the fundamental mechanisms governing cell division with greater control and detail than previously possible, and in real time.
The new system can eventually shed light on potential therapeutic strategies for conditions where cell division goes wrong, like cancer. However, for the scientists who discovered the process, the implications of the study are how it inspires a sense of wonder at the sophistication of the natural world.
Cells are incredibly small, yet within them exists a highly organized and very complex system that operates with great precision.

Nature Communications (2024). DOI: 10.1038/s41467-024-53500-1

Part 2

Less than 7 mm in length, this Atlantic Rainforest flea toad is the second-smallest vertebrate described in the world

Flea toads, as some species in the genus Brachycephalus are known, are less than 1 cm long in adulthood. Their size is far smaller than a fingernail.

The name of a new species, B. dacnis, pays tribute to Project Dacnis, a conservation, research and education NGO that maintains private areas of the Atlantic Rainforest, including the one where the animal was found, in Ubatuba, on the coast of Brazil's São Paulo state.

There are small toads with all the characteristics of large toads except for their size. This genus is different. During its evolution, it underwent what  biologists call miniaturization, which involves loss, reduction and/or fusion of bones, as well as fewer digits and absence of other parts of its anatomy.

The researchers' attention was drawn to the newly described species, B. dacnis, by its vocalizations. It has the same morphology as another species, B. hermogenesi. Both have yellowish-brown skin, live in leaf litter, do not have tadpoles but emerge from their eggs as fully formed miniatures of the adult morphology, and occur in the same region. Their calls are different, however.

DNA sequencing confirmed that B. dacnis was indeed a new species.

In their description of the new species, besides the requisite anatomical traits, the researchers included information about the skeleton and internal organs, as well as molecular data and details of its vocalizations. Descriptions of new species must include these details in order to distinguish them from others more precisely, given that many are cryptic and cannot be differentiated by external anatomy only.

 Luís Felipe Toledo et al, Among the world's smallest vertebrates: a new miniaturized flea-toad (Brachycephalidae) from the Atlantic rainforest, PeerJ (2024). DOI: 10.7717/peerj.18265

Smell loss is linked to more than 100 diseases in new study

Researchers reveal a powerful link between olfactory loss and inflammation in a staggering 139 medical conditions. 

This research  emphasizes a little-known but potentially life-altering connection: the role our sense of smell plays in maintaining our physical and mental health.

Olfactory dysfunction, often dismissed as a minor inconvenience, may actually be an early sign of various neurological and bodily diseases, as indicated by this research.

The data are particularly interesting because scientists had previously found that olfactory enrichment can improve the memory of older adults by 226%. Scientists  now know that pleasant scents can decrease inflammation, potentially pointing to the mechanism by which such scents can improve brain health.

This finding, they think, could hold key implications for mitigating symptoms and possibly even reducing the onset of certain diseases through therapeutic olfactory stimulation.

Part 1

The study delves into the methodical tracking of 139 medical conditions associated with both olfactory loss and heightened inflammation, uncovering insights into a shared pathway linking these factors. Olfactory loss, which often precedes conditions such as Alzheimer's and Parkinson's diseases, may serve as an early indicator of disease onset, allowing for more proactive therapeutic approaches.
It was difficult to track down the studies for so many medical conditions, say the scientists, reflecting on the complexity of linking olfactory loss to such a wide array of disorders. The challenge, they emphasize, underscores the importance of these findings in framing olfactory health as integral to overall well-being.
By showing how olfactory enrichment can mitigate inflammation, this research has laid a foundation for future studies aiming to explore the therapeutic use of scent to address a broader range of medical conditions.
The researchers are now working on a device to deliver olfactory therapy, which could hold promise as a novel, non-invasive way to improve health outcomes.

Michael Leon et al, Inflammation and olfactory loss are associated with at least 139 medical conditions, Frontiers in Molecular Neuroscience (2024). DOI: 10.3389/fnmol.2024.1455418

Part 2

Researchers identify key metabolites impacting lifespan in flies and humans

Discoveries that impact lifespan and healthspan in fruit flies are usually tested in mice before being considered potentially relevant in humans, a process that is expensive and time-intensive. A pioneering approach taken by researchers leapfrogs over that standard methodology.

Utilizing cutting-edge machine learning and systems biology, researchers have analyzed and correlated huge data sets from flies and humans to identify key metabolites that impact lifespan in both species. Results published in Nature Communications suggest that one of the metabolites, threonine, may hold promise as a potential therapeutic for aging interventions.

Threonine has been shown to protect against diabetes in mice. The essential amino acid plays an important role in collagen and elastin production and is also involved in blood clotting, fat metabolism and immune function.

In flies, threonine extended lifespan in a strain-and-sex-specific manner. Individuals with higher levels of threonine-related metabolites had longer, healthier lives.

Scientists are not saying that threonine is going to work in all conditions. This  research shows it works in subsets of both flies and people. However, this is not a magic bullet. 

The results also include findings that were not so positive for both species. Orotate, which is relatively understudied and has been linked with fat metabolism, was negatively associated with aging. In flies, orotate counteracted the positive impact of dietary restriction across every strain of the animals. In humans, orotate was linked to a shorter lifespan.

Tyler A. U. Hilsabeck et al, Systems biology approaches identify metabolic signatures of dietary lifespan and healthspan across species, Nature Communications (2024). DOI: 10.1038/s41467-024-52909-y

What is transcranial ultrasound stimulation (TUS)?

Constraining the body of a hydra can cause it to grow two heads

Hydra are small, invertebrate, predatory animals that live in water. They're tubular, radially symmetric and up to 10 mm long, with a head (mostly a mouth), a single, adhesive foot, and tentacles.

In a study published in the journal PRX Life, researchers investigated how technical forces and feedbacks on a Hydra might affect its body plan.

They choose Hydra because they are notable for being able to regenerate, as most of their body cells are stem cells, which can continually divide and then differentiate into any of the body's cell types. In fact, Hydra are so good at it that do not appear to age and may be immortal, constantly regenerating whatever cells they need, even from an initial small piece of tissue.

All animals share a common body plan because all come from a common ancestor, including bilateral symmetry, segmented bodies and a digestive system. Over billions of years, evolution has modified their shapes to create the enormous variety of body morphologies observed in the animal kingdom. But this biological pattern formation is still not well understood.

Morphogenesis is the biological process that causes a cell, tissue, or organism to develop its shape. It involves the differentiation of cells, tissues, and organs, leading to the creation of order in the developing organism.

Morphogenesis is a fundamental aspect of developmental biology, alongside tissue growth control and cellular differentiation. But what if an organism is constrained in some way due to external forces?

In this study, a team of researchers confined Hydra into a narrow cylindrical channel. The channel constrained the morphology of the animal—the form and structure of an organism, and particular features of its structure.

Part 1

In the group's earlier work, they focused on the role of multi-cellular arrays of actomyosin fibers in guiding and stabilizing the body axis of the Hydra as they regenerated. (Actomyosin is a complex formed by two interacting proteins, actin and myosin. It plays crucial roles in muscle contraction and cell movement, with the myosin motor protein pulling the actin filaments into place.)

Hydra have parallel actomyosin fibers that contract, and previous work by the same group found that the body axis of Hydra regenerated when tissue segments were aligned with the inherited body axis of the parent.

They decided to investigate how the orientation field of the actomyosin fibers, which contained locally disordered regions called topological defects, is relevant to the body plan of Hydra morphogenesis, which was still unknown.

They developed a methodology to confine regenerating Hydra in an anisotropic manner—on an axis other than the Hydra's parallel fibers. This required a method of confinement that did not damage the organism's tissue or regenerating capacity over the course of several days. They also needed high resolution live imaging over the entire time of regeneration.

The confinement was in a glass capillary tube, equipped with small cylindrical channels on its inner surface, 120 to 300 microns wide, made of a stiff gel between the spherical tissue samples and the glass wall.

When the Hydra tissue was introduced into the resulting channel, while a softer gel was pushed into the channel cavities on the edges to create a width available to the Hydra, care was taken not to tear the tissue during the soft gel insertion.

This reduced the movement of the tissue along the cylinder axis, with about 20 to 50 cells along the circumference of the cavity (a typical cell size is 20 microns), while allowing the spherical tissue to unfold and regenerate into an elongated, ellipsoidal shape.

After some time, the regenerating tissue fills the channel available to it, then forms a mouth and tentacles as the body column becomes narrower than the channel, and the animal separates from the channel walls.

In this way, an angle develops between the constrained body axis and the inherited body axis. The relative angle between the inherited body axis and the channel axis depends on the orientation in which the Hydra tissue spheroid enters the channel, with its inherited axis parallel or perpendicular to the channel's axis.
Part 2

The constraint imposed on the tissue geometry by the channel walls affects the patterns of mechanical stress experienced by the Hydra tissue, from both the hydrostatic pressure gradient across the tube and the frequent muscle contractions that take place.

The group found there was a strong preference of the body axes and the actomyosin fiber to come into alignment with the "easy-axis" of the channel, with one head and one foot along the channel axis. But different body plans developed if the initial tissue was perpendicular to the channel axis.

They wrote, "samples that are initially oriented with their primary fiber alignment perpendicular to the channel direction often regenerate into multiaxial morphologies."

But if the animals that were confined in length, perpendicular to the channel axis, they consisted mostly of animals with, amazingly, two heads, and often more than one foot. These multiple morphological features are not arranged along a single axis, but rather at junctions between axes with particular topological defects in the fiber organization.

Yonit Maroudas-Sacks et al, Confinement Modulates Axial Patterning in Regenerating Hydra, PRX Life (2024). DOI: 10.1103/PRXLife.2.043007

Part 3

**

Animal alcohol consumption more common than thought

Anecdotes abound of wildlife behaving "drunk" after eating fermented fruits, but despite this, nonhuman consumption of ethanol has been assumed to be rare and accidental. Ecologists challenge this assumption in a review published October 30 in Trends in Ecology & Evolution. They argue that since ethanol is naturally present in nearly every ecosystem, it is likely consumed on a regular basis by most fruit- and nectar-eating animals.

It is much more abundant in the natural world than we previously thought, and most animals that eat sugary fruits are going to be exposed to some level of ethanol.

Ethanol first became abundant around 100 million years ago, when flowering plants began producing sugary nectar and fruits that yeast could ferment. Now, it's present naturally in nearly every ecosystem, though concentrations are higher, and production occurs year-round in lower-latitude and humid tropical environments compared to temperate regions.

Most of the time, naturally fermented fruits only reach 1–2% alcohol by volume (ABV), but concentrations as high as 10.2% ABV have been found in over-ripe palm fruit in Panama.

Animals already harbored genes that could degrade ethanol before yeasts began producing it, but there is evidence that evolution fine-tuned this ability for mammals and birds that consume fruit and nectar. In particular, primates and tree-shrews have adapted to efficiently metabolize ethanol.

From an ecological perspective, it is not advantageous to be inebriated as you're climbing around in the trees or surrounded by predators at night—that's a recipe for not having your genes passed on.

It's the opposite of humans who want to get intoxicated but don't really want the calories—from the non-human perspective, the animals want the calories but not the inebriation.

Part 1

It's unclear whether animals intentionally consume ethanol for ethanol's sake, and more research is needed to understand its impact on animal physiology and evolution. However, the researchers say that ethanol consumption could carry several benefits for wild animals.
First and foremost, it's a source of calories, and the odorous compounds produced during fermentation could guide animals to food sources, though the researchers say it's unlikely that animals can detect ethanol itself.

Ethanol could also have medicinal benefits: fruit flies intentionally lay their eggs in substances containing ethanol, which protects their eggs from parasites, and fruit fly larvae increase their ethanol intake when they become parasitized by wasps.

On the cognitive side, ideas have been put forward that ethanol can trigger the endorphin and dopamine system, which leads to feelings of relaxation that could have benefits in terms of sociality.

 The evolutionary ecology of ethanol, Trends in Ecology & Evolution (2024). DOI: 10.1016/j.tree.2024.09.005

Part 2

Comb jellies can reverse age

A new article published in Proceedings of the National Academy of Sciences reveals the unprecedented ability for reverse development in a ctenophore, also called comb jelly. The findings suggest that life cycle plasticity in animals might be more common than previously thought.

Animal life cycles typically follow a familiar pattern of decline in countless variations: they are born, grow, reproduce and die, giving way to the next generation. Only a few species are able to deviate from this general principle, the best-known example being the "immortal jellyfish" Turritopsis dohrnii, which can revert from an adult medusa back to a polyp. This elusive group of animals with flexible life cycles now includes the ctenophore Mnemiopsis leidyi.

The work challenges our understanding of early animal development and body plans, opening new avenues for the study of life cycle plasticity and rejuvenation. The fact that we have found a new species that uses this peculiar 'time-travel machine' raises fascinating questions about how spread this capacity is across the animal tree of life.

Joan J. Soto-Angel et al, Reverse development in the ctenophore Mnemiopsis leidyi, Proceedings of the National Academy of Sciences (2024). DOI: 10.1073/pnas.2411499121

Researchers show nanoplastics can reduce the effectiveness of antibiotics

In a recent study, an international research team has investigated how nanoplastic particles deposited in the body affect the effectiveness of antibiotics.

The study showed that the plastic particles not only impair the effect of the drugs, but could also promote the development of antibiotic-resistant bacteria. These results were recently published in the journal Scientific Reports.

The focus was on the broad-spectrum antibiotic tetracycline, which is used to treat many bacterial infections, such as those of the respiratory tract, skin or intestines.

When it came to plastics, the choice fell on polyethylene (PE), polypropylene (PP) and polystyrene (PS), which are ubiquitous components of packaging materials, as well as nylon 6,6 (N66), which is contained in many textiles such as clothing, carpets, sofa covers and curtains. Nanoplastics are smaller than 0.001millimeters and are considered particularly harmful to humans and the environment due to their small size.

Using complex computer models, the team was able to prove that the nanoplastic particles can bind tetracycline and thus impair the effectiveness of the antibiotic. The binding was particularly strong with nylon.

The micro- and nanoplastic load is around five times higher there than outdoors. Nylon is one of the reasons for this: it is released from textiles and enters the body via respiration, for example.

As the study results show, the binding of tetracycline to nanoplastic particles can reduce the biological activity of the antibiotic. At the same time, binding to nanoplastics could lead to the antibiotic being transported to unintended sites in the body, causing it to lose its targeted effect and possibly cause other undesirable effects.

This increase in concentration could lead to the development of antibiotic-resistant bacteria. Plastics such as nylon 6,6, but also polystyrene, which bind more strongly to tetracycline, could therefore increase the risk of resistance.

The study shows that exposure to nanoplastics is not only a direct health risk, but can also indirectly influence the treatment of diseases. If nanoplastics reduce the effectiveness of antibiotics, the dosage poses a massive problem.

Leonard Dick et al, The adsorption of drugs on nanoplastics has severe biological impact, Scientific Reports (2024). DOI: 10.1038/s41598-024-75785-4

Some wildfire suppressants contain heavy metals and could contaminate the environment

In fire-prone areas, water isn't the only thing used to quell blazes. Wildland firefighters also apply chemical or synthetic suppressants. Researchers reporting in Environmental Science & Technology Letters explored whether these suppressants could be a source of elevated metal levels sometimes found in waterways after wildfires are extinguished.

Several products they investigated contained high levels of at least one metal, including chromium and cadmium, and could contribute to post-fire increases in the environment.

Wildfires are associated with the release of toxic heavy metals to the environment, but until now, it was assumed that these metals came from natural sources like soil. We now know that fire retardants may contribute to these metal releases.

Wildfire suppressant products, which are intended to inhibit fire activity before and after water evaporates, include fire retardants, water enhancers and foams. As wildfires have become more frequent and severe, larger volumes of water along with chemical and synthetic suppressants—sprayed from the ground and dropped from planes—have been required to extinguish them. Although manufacturers identify most of the active ingredients in suppressants, some components are proprietary. In addition, previous researchers have observed increased concentrations of potentially toxic metals in soil and streams after wildfires.

These results show that fire suppression activities could contribute to elevated metal levels in the environment but that more work is needed to determine potential risks to human and environmental health.

Marella H. Schammel et al, Metals in Wildfire Suppressants, Environmental Science & Technology Letters (2024). DOI: 10.1021/acs.estlett.4c00727

Electric fans fail to lower core body temperature of seniors during heat waves, study finds

A team of physiologists at the University of Ottawa's Human and Environmental Physiology Research Unit reports that use of an electric fan during periods of high temperatures by older people does not lower core body temperatures. In their study, published in JAMA, the group conducted experiments with elderly volunteers using fans in high-temperature conditions.

As several heat waves have struck parts of North America, high numbers of older people have died of heat stroke. This was notable due to the location of many of the deaths—the Pacific Northwest, where extremely high temperatures are rare. Because of the rarity of such high temperatures, many people in the region do not have air conditioners. Prior research has shown that older people are at higher risk of dying of heat stroke due to their lessened ability to reduce their body temperature. One notable problem is less efficient sweating.

During heat waves, officials in the affected regions suggested that older people without access to air conditioning use electric fans to stay cool. In this new effort, the research team tested the approach to see if the advice was valid.

The researchers recruited 18 people ranging in age from 65 to 72, who sat in a climate-controlled temperature chamber with an electric fan. The temperature and the fan settings were both controlled by the research team. All the volunteers were monitored during the experiments to ensure they did not become overheated.

The researchers kept the temperature inside the chamber at a steady 36°C, with a humidity level of 45%. The fans had three spin settings: off, slow and fast. All three settings were tested with the volunteers.

The researchers found that neither the slow nor the fast setting had any measurable impact on core body temperature—it was the same as if the fan was off. They also found that the slow setting did little to make the volunteers feel cooler, but the fast setting did, which, they suggest, was dangerous. Because they felt somewhat cool, the volunteers did not realize that their core body temperatures might be rising to dangerous levels.

 Fergus K. O'Connor et al, Effect of Electric Fans on Body Core Temperature in Older Adults Exposed to Extreme Indoor Heat, JAMA (2024). DOI: 10.1001/jama.2024.19457

Once again, tuberculosis becomes world's top infectious disease killer

In the highest tally ever recorded for tuberculosis cases, the World Health Organization report that over 8 million people worldwide were diagnosed with the lung disease last year.

Of that number, 1.25 million people died of TB, the new report found, meaning that it is once again the leading cause of deaths from infectious disease after COVID-19 displaced it briefly during the pandemic.

The fact that TB still kills and sickens so many people is an outrage, when we have the tools to prevent it, detect it and treat it," WHO Director-General Dr. Tedros Adhanom Ghebreyesus said in an agency news release. "WHO urges all countries to make good on the concrete commitments they have made to expand the use of those tools, and to end TB."

Some countries are hit harder by the disease than others. It continues to mostly affect people in Southeast Asia, Africa and the Western Pacific. India, Indonesia, China, the Philippines and Pakistan account for more than half of the world's cases, the WHO noted.

According to the report, 55% of people who developed TB were men, while 33% were women and 12% were children and young adolescents. Many new TB cases were driven by five major risk factors: undernutrition, HIV infection, alcohol use disorders, smoking [especially among men] and diabetes.

Tackling these issues, along with other social determinants such as poverty, requires a coordinated approach, the WHO added.

https://www.who.int/news/item/29-10-2024-tuberculosis-resurges-as-t...

Bats have acoustic cognitive maps

Echolocating bats have been found to possess an acoustic cognitive map of their home range, enabling them to navigate over kilometer-scale distances using echolocation alone.

This finding, published in Science, was demonstrated by researchers.

Would you be able to instantly recognize your location and find your way home from any random point within a three-kilometer radius, in complete darkness, with only a flashlight to guide you?

Echolocating bats face a similar challenge, with a local and directed beam of sound—their echolocation—to guide their way. Bats have long been known for their use of echolocation to avoid obstacles and orient themselves.

The researchers have now shown that bats can identify their location even after being displaced and use echolocation to perform map-based navigation over long distances.

Remarkably in experiments, even with echolocation alone, 95% of the displaced bats  returned to their roosts within minutes, demonstrating that bats can conduct kilometer-scale navigation using only this highly directional, and relatively local, mode of sensing. However, it was also shown that, when available, bats improve their navigation using vision.

The model created revealed that bats tend to fly near environmental features with higher "echoic entropy"—areas that provide richer acoustic information.

Bats can use this acoustic information to distinguish between environmental features such as a tree and a road, and thus use them as acoustic landmarks.

After being displaced, these  bats first identify their new location and then fly home, using environmental features with distinctive acoustic cues as landmarks. This behaviour suggests they possess an acoustic mental map of their home range.

Aya Goldshtein, Acoustic cognitive map-based navigation in echolocating bats, Science (2024). DOI: 10.1126/science.adn6269. www.science.org/doi/10.1126/science.adn6269

Part 2

It's time to rewrite the textbooks: 

Chemists just broke a 100-year-old rule

I love this!

Chemists have found a big problem with a fundamental rule of organic chemistry that has been around for 100 years—it's just not true. And they say, It's time to rewrite the textbooks.

Organic molecules, those made primarily of carbon, are characterized by having specific shapes and arrangements of atoms. Molecules known as olefins have double bonds, or alkenes, between two carbon atoms. The atoms, and those attached to them, ordinarily lie in the same 3D plane. Molecules that deviate from this geometry are uncommon.

The rule in question, known as Bredt's rule in textbooks, was reported in 1924. It states that molecules cannot have a carbon-carbon double bond at the ring junction of a bridged bicyclic molecule, also known as the "bridgehead" position. The double bond on these structures would have distorted, twisted geometrical shapes that deviate from the rigid geometry of alkenes taught in textbooks.

Olefins are useful in pharmaceutical research, but Bredt's rule has constrained the kind of synthetic molecules scientists can imagine making with them and prevented possible applications of their use in drug discovery.

A paper published by scientists in the journal Science has invalidated that idea. They show how to make several kinds of molecules that violate Bredt's rule, called anti-Bredt olefins, or ABOs, allowing chemists to find practical ways to make and use them in reactions.

People aren't exploring anti-Bredt olefins because they think they can't (very bad for science).

"We shouldn't have rules like this—or if we have them, they should only exist with the constant reminder that they're guidelines, not rules. It destroys creativity when we have rules that supposedly can't be overcome", say the scientists.

What this study shows is that contrary to one hundred years of conventional wisdom, chemists can make and use anti-Bredt olefins to make value-added products.

There's a big push in the pharmaceutical industry to develop chemical reactions that give three-dimensional structures like these because they can be used to discover new medicines.

Luca McDermott et al, A solution to the anti-Bredt olefin synthesis problem, Science (2024). DOI: 10.1126/science.adq3519. www.science.org/doi/10.1126/science.adq3519

Scientists engineer 'glowing' gel to improve eye surgery

Cataracts—a condition that causes clouding of the eye's lens and deteriorating vision—will affect nearly everyone who lives long enough. Now  scientists have pioneered a new color-changing hydrogel that could reduce complications from cataract surgery, one of the world's most commonly performed procedures.

During cataract surgery, doctors remove the cloudy lens and replace it with an artificial one. The procedure requires injecting a clear hydrogel to keep the eye inflated and protect the cornea. However, incomplete removal of this gel can lead to increased eye pressure, pain, and even long-term vision loss.

Researchers have created a clear gel that turns fluorescent green under blue light, allowing surgeons to verify complete removal following surgery. This innovation could enhance both the safety and efficiency of cataract surgery and other eye procedures, according to the researchers.

Now, when surgeons finish up a case, they can rest assured that all the gel has been removed versus beforehand when they just had to do their best and hope they'd gotten it all.

Their results were featured on the cover of the Journal of Cataract & Refractive Surgery.

 Erick E. Rocher et al, Fluorescein-conjugated hyaluronic acid enables visualization of retained ophthalmic viscosurgical device in anterior chamber, Journal of Cataract & Refractive Surgery (2024). DOI: 10.1097/j.jcrs.0000000000001503

Low sugar intake in utero and in early childhood found to significantly reduce risk of midlife chronic disease

A low-sugar diet in utero and in the first two years of life can meaningfully reduce the risk of chronic diseases in adulthood, a new study has found, providing compelling new evidence of the lifelong health effects of early-life sugar consumption.

Published in Science, the study finds that children who experienced sugar restrictions during their first 1,000 days after conception had up to 35% lower risk of developing type 2 diabetes and as much as 20% less risk of hypertension as adults. Low sugar intake by the mother prior to birth was enough to lower risks, but continued sugar restriction after birth increased the benefits.

 Tadeja Gracner et al, Exposure to sugar rationing in the first 1000 days of life protected against chronic disease, Science (2024). DOI: 10.1126/science.adn5421

Causal relationship seen between GERD and hypertension

There is a positive causal relationship between gastroesophageal reflux disease (GERD) and hypertension, according to a study published online Sept. 23 in Frontiers in Cardiovascular Medicine.

Researchers  investigated the causal  between GERD and hypertension using a two-sample Mendelian randomization analysis.

The researchers reported that a total of 16 single nucleotide polymorphisms strongly associated with GERD were screened out, and the inverse variance weighting suggested a causal relationship between GERD and hypertension (odds ratio, 1.057). A similar relationship was seen using a weighted median (odds ratio, 1.051). No heterogeneity or horizontal pleiotropy was seen, suggesting a robustness of the outcome.

"Although the specific mechanism was not elucidated, this study provides another perspective on the risk factors for the development of hypertension," the authors write. "Timely diagnosis and treatment of GERD can significantly improve and reduce the development of associated hypertension and deserves further research and application."

Weige Li et al, Study of the causal relationship between gastroesophageal reflux disease and hypertension through two-sample Mendelian randomization analysis, Frontiers in Cardiovascular Medicine (2024). DOI: 10.3389/fcvm.2024.1326348

Obesity combined with polycystic ovary syndrome in mothers poses risk to children

Women with polycystic ovary syndrome (PCOS) and obesity are at a higher risk of giving birth to smaller babies in terms of birth weight, length, and head circumference, according to a recent study conducted.

One in eight women is affected by the hormone disorder PCOS. PCOS is commonly characterized by elevated levels of male sex hormones, infrequent or irregular menstrual periods, and the formation of small cysts on the ovaries.

In the study, 390 children born to women with PCOS were compared to around 70,000 children from the Norwegian Mother, Father and Child Cohort Study (MoBa).

The researchers found that on average, the babies born to mothers with PCOS weighed less, were shorter, and had a smaller head circumference  at birth. This was particularly the case when the mothers were obese, meaning they had a BMI over 30.

The findings are published in the journal JAMA Network Open.

PCOS is a disease that follows women throughout their lives and can trigger different metabolic diseases and problems such as diabetes, high blood pressure, and obesity. Women with PCOS are generally more likely to develop overweight and obesity.

In women of normal weight who have PCOS, researchers only find that their children have a lower birth weight compared to women who do not have PCOS. Instead, the group of children born to mothers with obesity stands out the most. These babies weigh less, are shorter and have a smaller head circumference. Obesity places an additional burden on mothers who have PCOS as well as their children.

Part 1

What is unusual is that women who are generally overweight and gain a lot of weight during pregnancy usually have an increased risk of giving birth to large babies. This also applies to women who develop gestational diabetes.

On average, women with PCOS have higher BMIs, gain more weight during pregnancy, and 25 percent develop gestational diabetes. However, the outcome is the opposite: these women give birth to babies who are smaller than average. We still don't know why, but we see that the placenta is affected in these women.
Even though the placenta in these women is smaller in size, it seems to deliver more nutrients relative to the baby's body weight compared to a normal placenta. It is a placenta in overdrive.
The placenta delivers nutrients to the baby through the umbilical cord. In women with PCOS, we see that the placenta is generally smaller in size. At the same time, it must provide everything the baby needs, so it has to work very hard to meet these demands. Sometimes, however, the placenta can't keep up, which can lead to placental insufficiency and, in rare cases, fetal death.
There are no definitive answers tot eh question "why"?
Previously, researchers thought the cause was linked to the high levels of male sex hormones, but they have not been able to fully connect the two. Researchers also know that women with PCOS have a slightly different immune profile during pregnancy.
The researchers have also followed up on some of the children when they were 7 years old. They saw that the children born to mothers with PCOS generally had more central obesity, meaning they were larger around the waist.

Other studies have shown that children born to mothers with PCOS are at higher risk of developing overweight and obesity at a young age. Research has also shown that low birth weight is linked to the development of type 2 diabetes and cardiovascular disease later in life.
We see differences in children as early as seven or eight years old, where children born to mothers with PCOS have a larger waist circumference and higher BMI.

Maren Sophie Aaserud Talmo et al, Growth Restriction in the Offspring of Mothers With Polycystic Ovary Syndrome, JAMA Network Open (2024). DOI: 10.1001/jamanetworkopen.2024.30543

**

Part 2

The link between hepatitis and kidney damage

The hepatitis E virus affects the liver. But infected liver cells secrete a viral protein that reacts with antibodies in the blood and may form complexes that can damage the filter structure of the kidneys, as researchers have shown for the first time.

The hepatitis E virus infects some 70 million people every year. This infection is the most common form of acute hepatitis and a major global health problem.

In the majority of cases, the infection is asymptomatic or mild. However, sometimes it not only involves serious damage to the liver, but also to the kidneys.

The infected liver cells produce an excess of a viral protein that can bind with other viral proteins to form a viral envelope. Because the virus's genetic material replicates to a far lesser extent, the vast majority of the envelopes remain empty when they are secreted by the liver cells. This is how they enter the bloodstream, where they are detected by the immune system, which then forms antibodies that stick to the viral proteins.

These viral envelope-antibody complexes are then deposited in the filter structures of the kidneys, known as the glomeruli. If the complexes accumulate more quickly than they are removed, they can damage the glomeruli, triggering what is known as glomerulonephritis—a pattern of damage that in the worst case can lead to kidney failure.

The researchers discovered this mechanism when they were examining the cause of death of a patient who had received a new kidney years earlier. From the patient's medical record, it was clear that his chronic hepatitis E had not been diagnosed straight away. This is not uncommon as the disease still receives too little attention in some parts of the world.

This  discovery will help to raise awareness of hepatitis E and its link to kidney damage. 

 Anne-Laure Leblond et al, HEV ORF2 protein-antibody complex deposits are associated with glomerulonephritis in hepatitis E with reduced immune status, Nature Communications (2024). DOI: 10.1038/s41467-024-53072-0

Scientists successfully reverse liver fibrosis in mice

Cirrhosis, hepatitis infection and other causes can trigger liver fibrosis—a potentially lethal stiffening of tissue that, once begun, is irreversible. For many patients, a liver transplant is their only hope. However, new research may offer patients a glimmer of hope. Scientists who worked on this say they've successfully reversed liver fibrosis in mice.

Reporting in the journal Nature Communications, the team say they've discovered a genetic pathway that, if blocked, might bring fibrosis to a halt.

The three genes involved in this fibrotic process are called FOXM1, MAT2A and MAT2B.

The new  findings suggest that blocking any of these gene-produced proteins might be useful in treating this condition.

FOXM1, is present in liver cells called hepatocytes and can trigger liver cancer, inflammation and fibrosis if it becomes overactive. The two other genes, MAT2A and MAT2B, are active within a second kind of liver cell called stellate cells, which also play a role in fibrosis. All three genes code for different proteins necessary for the fibrotic process, the scientists explained.

Scientists discovered that these proteins 'talk' with each other inside liver cells. They even influence nearby cells through extracellular vesicles—fat molecules filled with genetic fragments, proteins and other biological materials that act as messengers between cells. Working together, that is how these proteins stimulate each other, driving liver inflammation and fibrosis

What if production of even one of the proteins produced by the genetic trio was interrupted?

To find out, the research group first induced liver inflammation and fibrosis in lab mice.

They then treated those mice with a substance known as FDI-6 that blocks the protein produced by the FOXM1 gene.

The result was impressive: Not only did this therapy put a halt to further fibrosis, it seemed to reverse some of the stiff fibrotic scarring of the mouse liver tissue that had already taken place.

This is selfishness at its peak!

Government interventions can reduce deadly air pollution in South Asia, study finds

Air pollution, driven in large part by practices like crop burning, contributes to 2 million deaths a year in South Asia and persists as a public health emergency. But a new study co-led by Brown University researcher Gemma Dipoppa found that government incentives may be able to curb the illegal practice of crop burning, according to a study published in the journal Nature.

In South Asia, farmers often burn leftover material from harvesting crops to clear their fields for the next planting season. The method is efficient and cost-effective but has devastating effects on air quality and health and contributes to 40% to 60% of the total air pollution in the region during the winter harvest season.

This is a very clear health emergency, and researchers wondered, 'Why isn't the government able to address this challenge, which is visible and extremely damaging for people?'

They  decided to study the aspect of government intervention and in particular the administration of the state that is in charge of reducing air pollution from a big-picture point of view.

Through their analysis of a decade of wind, fire and health data from satellites and surveys, Dipoppa and Gulzar found that government officials in India and Pakistan were more likely to reduce crop residue burning when its negative effects were felt in their own jurisdictions rather than outside of them: crop-burning fires increased by 15% when wind was most likely to direct pollution to neighboring jurisdictions and decreased by 14.5% when it polluted their own, the study found.

The researchers found that government-led actions against burning, such as fines for those violating the law, deterred future polluters and reduced fires by an additional 13%, a finding that contradicted a common perception that the widespread problem is impossible to control.

"Government officials are already acting on this issue, but they are doing it only in times and places where it is incentive-compatible for them, including when the pollution affects their own jurisdictions and not neighboring areas, the researchers conclude.

Part 1

This is important because it tells us that government leaders do have the power to reduce crop burning. If they had more resources, they would probably be capable of reducing pollution to a larger extent."

The problem of air pollution from crop burning is especially prevalent at the border between India and Pakistan, where there is a lack of coordination between jurisdictions, the researchers added.

As part of the study, the researchers also examined the effects of crop-burning pollution on infant and child mortality and estimated that that 1.5 to 2.7 deaths per 1,000 children could be prevented if action were taken to reduce crop fires.

The researchers hope that this paper can contribute to the public debate on how to address this widespread problem and how to solve this selfishness problem.

Government leaders can explore punishment, incentives, information campaigns and many other initiatives that will encourage farmers to find alternative solutions to burning if they leave their "I, me , myself" thoughts .

Gemma Dipoppa et al, Bureaucrat incentives reduce crop burning and child mortality in South Asia, Nature (2024). DOI: 10.1038/s41586-024-08046-z

Part 2

Drone with its own 'nervous system' trialed by scientists

Scientists are testing a drone fitted with its own "nervous system" which they claim can keep it operating in the sky for longer. The system, made of optical fibers, reduces the frequency it needs to land for inspection.

Cargo-carrying drones are required to make regular pitstops for manual safety checks, which limits its use and can increase operating costs.

The optical fiber system developed by researchers makes drones more efficient by continuously monitoring its structural health just like nerves in the body.

This is a kind of nervous system for drones. 

It sends back real-time information using light—rather than electricity—which avoids problems that electronic systems have with interference from radio frequencies.

This system not only reduces the burden on ground crews but also ensures that drones can operate more safely and efficiently.

The system uses a unique technique called optical speckle which projects specific images dependent on what the optical fiber nervous system feels. These can be interpreted using AI to assess the health of the drone.

This speckle system keeps track of the stresses and strains on the drone, helping ground crews spot issues early without needing to land the drone as often for inspections.

The real reason behind gout

Gout is often associated with drinking too much or not eating healthily enough, but new research suggests genetics play more of a factor in developing the arthritic condition than previously thought. The research, carried out by an international team of scientists, looked at genetic data collected from 2.6 million people across 13 different cohorts of DNA data. That number included 120,295 people with "prevalent gout".

By comparing the genetic codes of the people with gout against the people without, the team found 377 specific DNA regions where there were variations specific to having the condition – 149 of which hadn't been previously linked to gout.

While lifestyle and environmental factors are certainly still in play, the findings suggest genetics play a major role in determining whether or not someone gets gout – and the researchers think there may be more undiscovered genetic links still to be found, too.

Gout takes hold when there are high levels of uric acid in the blood, which then form sharp crystal needles in the joints. When the body's immune system starts to attack those crystals, it leads to significant pain and discomfort.

Genetics is important in every stage of that process, the researchers suggest. Particularly, it affects the likelihood of the body's immune system attacking the crystals, and in the way uric acid is transported around the body.

Gout can come and go, but there are treatments available – and the authors behind the new study think misconceptions can put people off getting those treatments. That's a real problem with cases of the condition rising and rising.

https://www.nature.com/articles/s41588-024-01921-5