SIRT6 protein regulates tryptophan to prevent neurodegeneration

University of Michigan researchers using fruit flies report that changes in sugar metabolism can influence whether injured neurons and their axons deteriorate or persist. The work, published in *Molecular Metabolism*, describes a context-dependent response involving the proteins DLK and SARM1 that can briefly slow axon degeneration after injury, a finding the team says could inform future strategies for neurodegenerative disease research.

November 06, 2025 Iniulat ng AI Fact checked

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.

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.

January 19, 2026 Iniulat ng AI

Scientists at Cold Spring Harbor Laboratory have found that breast cancer quickly disrupts the brain's internal clock in mice, flattening daily stress hormone cycles and impairing immune responses. Remarkably, restoring these rhythms in specific brain neurons shrank tumors without any drugs. The discovery highlights how early physiological imbalances may worsen cancer outcomes.

A new genetic study has identified 331 genes essential for transforming stem cells into brain cells, including a novel gene linked to neurodevelopmental disorders. Led by scientists at the Hebrew University of Jerusalem, the research highlights how early genetic disruptions can lead to conditions like autism and developmental delay. The findings, published in Nature Neuroscience, also reveal patterns in how these disorders are inherited.

November 03, 2025 Iniulat ng AI Fact checked

A University of Cologne team reports in Nature Cell Biology that the essential amino acid leucine enhances cellular energy production by preserving key outer‑mitochondrial‑membrane proteins through the quality‑control factor SEL1L, linking diet to organelle function and hinting at implications for metabolic disease and cancer.