Radically different
Nature Neuroscience, Published online: 07 April 2026; doi:10.1038/s41593-026-02255-7
This study shows that cerebellar circuits learn and encode prior probabilities of event timing. Cell-type-specific neural activity reflects environmental statistics and guides predictive motor behavior, providing support for neural Bayesian inference.
An experimental HIV prevention pill being developed by Merck could be mass produced for less than $5 per patient a year according to a new analysis. Advocates argue the low cost means the company should find it easier to license the drug so that low- and middle-income countries can gain easy access.
The pill, dubbed MK 8527, is currently undergoing a pair of late-stage clinical trials that are expected to determine whether the medicine can lower HIV transmission when given to people at high risk of infection. The results are due in the latter half of 2027, according to separate postings on ClinicalTrials.gov.
Already, the pill is generating considerable interest after Merck released mid-stage results last summer showing its drug holds promise. In addition to being safe and effective, the study found it could protect against infection, a form of prevention known as pre-exposure prophylaxis or PrEP, within 24 hours after being taken. Merck noted the pill works in a novel way.
WASHINGTON — The Food and Drug Administration used the president’s budget to propose policies aimed at encouraging domestic development and manufacturing of drugs.
FDA Commissioner Marty Makary has said the agency needs “giant, big ideas” to counter China’s dominance in early-stage clinical development of drugs. Among the FDA’s ideas are proposals to make it easier to run early-stage trials in the U.S. and to hand an advantage to U.S.-based generics manufacturers.
The Trump administration has been using a variety of policy levers to try and bring drug manufacturing to the U.S. For example, many of the brand drugmakers that struck deals to lower U.S. prices also promised to increase domestic manufacturing, under the threat of tariffs.
For her new research on the brain’s plumbing system, neuroscientist Maiken Nedergaard had to hone many techniques. Among them — coaxing her lab mice into restful sleep, even as they lay on microscope beds with tiny fiberoptic wires threaded into their brains.
“It was really hard to get the mice to sleep naturally,” said Nedergaard, who spent weeks cuddling the animals in her hands, so they’d learn to feel safe. “But then we said, ‘we really want to not have them disturbed.’”
The reason for this care? Nedergaard studies the glymphatic system, which removes waste from the brain during sleep, so ensuring her test subjects achieve a restorative snooze is central to her work.
An abdominal aortic aneurysm is a life-threatening vascular condition with limited treatment options.
Now, researchers from the University of Michigan Frankel Cardiovascular Center have identified a driving force behind the condition, opening up a potential target for new therapies. Their paper uncovering the causal link between triglycerides and abdominal aortic aneurysms won the STAT Madness 2026 popular vote.
Triglycerides have long been considered a biomarker for vascular disease. But using three different mouse models, the Michigan team demonstrated that the common type of fat plays a direct role in aneurysm development, and that lowering triglyceride levels with certain drugs can stop them from forming and rupturing.
Every year, the Genetics Society of America bestows the Elizabeth W. Jones Award for Excellence in Education, recognizing someone who has helped the public better understand the science of DNA. It’s understood to be a lifetime achievement award; past recipients tend toward retirement age with decades of work behind them and stacks of textbooks to their names.
When this year’s winner, Brian Donovan, was announced at the end of February, many geneticists and science educators found it hard to celebrate the news. Not because he’s undeserving of the honor. Far from it. But because it seemed to confirm what many feared: that Donovan’s incandescent research career was over before it had barely begun.
Microplastics have become a defining environmental signature of modern life, turning up in oceans, soil, food, drinking water, and even the air. But their biological fate inside the human body remains far less understood. A new study suggests that these particles may be doing more than simply passing through. Instead, they may be accumulating in one of the body’s most overlooked fluids—bile—and leaving behind measurable cellular damage that could shape future thinking about environmentally driven biliary injury and long‑term health effects. As the authors noted in their abstract, “the long-term accumulation patterns and chronic toxic effects of microplastics within the human biliary system are largely unknown,” underscoring the need for deeper investigation into how these particles behave in the enterohepatic circulation.
Researchers from the Tenth Affiliated Hospital of Southern Medical University (Dongguan People’s Hospital), Sun Yat-sen University, Guilin Medical University, and collaborating institutions reported the findings in Environmental Science and Ecotechnology. Their study, “Microplastics accumulate in human bile and drive cholangiocyte senescence,” provides the first direct evidence that microplastics are not only present in bile but may also contribute to mitochondrial dysfunction and premature aging in cholangiocytes, the epithelial cells that line the bile ducts.
The team collected bile from 14 surgical patients (five without gallstones and nine with gallstones) and used a multimodal analytical approach—pyrolysis–gas chromatography–mass spectrometry, laser direct infrared spectroscopy, and scanning electron microscopy—to characterize the particles. According to the paper, “we show the universal presence of microplastics in human bile,” identifying six polymer types dominated by polyethylene terephthalate and polyethylene, with most particles measuring 20–50 μm. Patients with gallstones carried substantially higher microplastic burdens, raising questions about whether biliary stasis or altered bile composition may influence microplastic retention.
To probe biological effects, the researchers exposed cultured human cholangiocytes to low-dose polystyrene nanoplastics for seven days, simulating chronic exposure. The cells exhibited mitochondrial dysfunction, elevated reactive oxygen species, reduced ATP, Drp1‑mediated mitochondrial fission, and G1 cell‑cycle arrest—hallmarks of senescence. As the authors wrote, chronic exposure “induces mitochondrial dysfunction-associated senescence in cholangiocytes,” suggesting a mechanistic link between environmental microplastics and biliary aging.
One of the most intriguing findings is that melatonin, a widely used antioxidant, partially reversed the mitochondrial and inflammatory damage. While far from a therapeutic recommendation, the result hints at a potential intervention point and gives the study translational relevance.
The work reframes the biliary system as something far more active than a simple transit channel. The data indicate that bile can serve as a reservoir for microplastics and that prolonged exposure may age cholangiocytes by driving mitochondrial dysfunction. The partial rescue with melatonin adds a mechanistic foothold for future intervention, even as the authors caution that broader human studies are essential.
For biotech, the implications are broad. The work highlights bile as a clinically accessible matrix for exposure assessment, opening the door to new diagnostics for environmental toxicology. The mitochondrial stress signature aligns with pathways already being targeted by companies developing senolytics, mitoprotective agents, and anti‑inflammatory therapeutics. The authors wrote that the research provides “a mechanistic foundation for assessing the health risks of plastic pollution and developing therapeutic interventions for environmentally driven biliary disorders.”
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