Scientists develop safer way to boost cell calorie burn

Researchers in Japan have discovered that boosting a protein called COX7RP in mice improves mitochondrial function, leading to longer lives and better health. The engineered mice lived 6.6% longer on average, with enhanced metabolism and reduced signs of aging. This finding points to potential ways to promote healthier aging in humans.

27. November 2025 Von KI berichtet Fakten geprüft

Biomedical engineers at Texas A&M University have used nanoflowers to make stem cells produce roughly twice the usual number of mitochondria. These enhanced stem cells then transfer the extra energy-producing organelles to damaged or aging cells, restoring their energy production and resilience in lab studies, according to a new report in the Proceedings of the National Academy of Sciences.

Researchers working at Harvard University and collaborators in Brazil have identified metabolites produced by gut bacteria that travel through the portal vein to the liver and appear to influence energy use and insulin sensitivity in mice. The findings, published in Cell Metabolism, suggest possible new strategies for preventing or treating obesity and type 2 diabetes by targeting gut–liver communication.([sciencedaily.com](https://www.sciencedaily.com/releases/2025/12/251214100926.htm?utm_source=openai))

6. November 2025 Von KI berichtet Fakten geprüft

Weill Cornell Medicine researchers report that free radicals generated at a specific mitochondrial site in astrocytes appear to promote neuroinflammation and neuronal injury in mouse models. Blocking those radicals with tailored compounds curbed inflammation and protected neurons. The findings, published Nov. 4, 2025, in Nature Metabolism, point to a targeted approach that could inform therapies for Alzheimer’s disease and frontotemporal dementia.

Researchers at Case Western Reserve University report they have identified an abnormal interaction between the Parkinson’s-linked protein alpha-synuclein and the enzyme ClpP that disrupts mitochondrial function in experimental models. They also describe an experimental compound, CS2, designed to block that interaction, which they say improved movement and cognitive performance and reduced brain inflammation in lab and mouse studies.

8. Dezember 2025 Von KI berichtet Fakten geprüft

An international team of researchers has identified trimethylamine (TMA), a gut microbe metabolite produced from dietary nutrients such as choline, as a compound that inhibits the immune-signalling protein IRAK4, dampening inflammation and improving insulin action in experimental models. The discovery, reported in Nature Metabolism, suggests a potential new way to counter some of the harmful metabolic effects of high-fat diets and opens avenues for future type 2 diabetes therapies, a disease affecting more than 500 million people worldwide.