A publication based on longitudinal and cross sectional data and led by researchers at the U.S. NIH’s National Institute on Aging published on June 5, 2025, in Science has stated that the impact of taurine supplementation at delaying aging or treating aging-related conditions is context-dependent, and that the circulating levels of taurine are impacted by factors unique to each individual rather than declining with age. To qualify taurine as a true marker of aging, it should change with age across diverse populations over time and ideally supported by longitudinal data.
A publication based on longitudinal and cross sectional data and led by researchers at the U.S. NIH’s National Institute on Aging published on June 5, 2025 in Science has stated that the impact of taurine supplementation at delaying aging or treating aging-related conditions is context-dependent, and that the circulating levels of taurine are impacted by factors unique to each individual rather than declining with age. To qualify taurine as a true marker of aging, it should change with age across diverse populations over time and ideally supported by longitudinal data.
Researchers in the U.K. have overthrown the orthodox view that childhood cancers have a low mutation burden, opening up new drug targets and opportunities for repurposing existing therapies. In particular, a high mutation rate is associated with a response to cancer immunotherapy. But although PD-1 checkpoint inhibitors are approved for treating pediatric cancers with a high level of microsatellite instability mutations, in general it is thought childhood tumors are not amenable to immunotherapy.
Researchers in the U.K. have overthrown the orthodox view that childhood cancers have a low mutation burden, opening up new drug targets and opportunities for repurposing existing therapies. In particular, a high mutation rate is associated with a response to cancer immunotherapy. But although PD-1 checkpoint inhibitors are approved for treating pediatric cancers with a high level of microsatellite instability mutations, in general it is thought childhood tumors are not amenable to immunotherapy.
Researchers have identified KpsM as a virulence factor in Escherichia coli that was responsible for liver damage in alcohol-associated hepatitis (AH). A small-molecule inhibitor of KpsM reduced liver damage in animal models of AH.
Anti-aging specialist Juvenescence Ltd. reached the first close of its series B-1 at $76 million and said it is on course to close the round at $150 million in the third quarter of 2025. “The reason for the first close and not waiting for the very end is just so we can start to move the pipeline forward,” said Richard Marshall, CEO. “We’ve got molecules in and waiting to go, so the sooner we can get going on those, the better,” he told BioWorld.
Using a customized gene editing therapy, researchers at the Children’s Hospital of Philadelphia have reported success in treating an infant with a severe metabolic disorder. Kiran Musunuru, Barry J. Gertz Professor for Translational Research in the University of Pennsylvania’s Perelman School of Medicine, presented the case at the American Society of Gene and Cell Therapy’s 2025 annual meeting. The case study was simultaneously published in The New England Journal of Medicine.
Researchers at the University of Chicago have shed light on the role of tumor-promoting factors induced by radiotherapy and their potential impact on future therapeutic strategies. The article, published in Nature on May 14, 2025, points to radiation-induced amphiregulin as a key driver of tumor metastasis.
Gene and cell therapies (GCTs) can target the kidney to treat congenital, acute or chronic diseases affecting this organ. However, its complex structure poses a challenge for these technologies. To be precise and effective in the long term, new approaches should circumvent the specificities of renal tissue, with novel methods of delivery and gene transfer to offer new therapeutic options for patients who lack them.
Using a customized gene editing therapy, researchers at the Children’s Hospital of Philadelphia have reported success in treating an infant with a severe metabolic disorder. Kiran Musunuru, Barry J. Gertz Professor for Translational Research in the University of Pennsylvania’s Perelman School of Medicine, presented the case at the American Society of Gene and Cell Therapy’s 2025 annual meeting. The case study was simultaneously published in The New England Journal of Medicine.