Cellular Senescence Drives GI Disease From Mouth to Pancreas
A landmark review maps how senescent cells fuel gastrointestinal diseases—and why clearing them could transform treatment.
Biological age reversal, epigenetic clocks, senolytics, and anti-aging interventions
1,824 articles
A landmark review maps how senescent cells fuel gastrointestinal diseases—and why clearing them could transform treatment.
A deep mechanistic exploration of mTOR complex architecture, allosteric regulation, and the cutting-edge therapeutic strategies targeting this pathway for healthspan extension.
New single-cell RNA data reveals how Y chromosome loss reshapes immune cell behavior and unlocks cancer-linked X genes in older men.
Large UK study reveals night shift workers age faster biologically and lose nearly a year of life expectancy.
Chilean study reveals obesity since childhood triggers molecular aging signatures including DNA changes and inflammation in 28-31 year olds.
New research reveals how aging promotes atherosclerosis while cardiovascular disease accelerates biological aging through shared molecular pathways.
New therapies targeting inflammation pathways could reduce cardiovascular disease and slow kidney disease progression in CKD patients.
Comprehensive review identifies senolytics, NAD+ precursors, mTOR inhibitors and other compounds targeting aging hallmarks.
TET and TDG proteins regulate DNA methylation in T cells, affecting immune responses, inflammation, and age-related diseases.
Go beyond the basics and explore how mTOR actually reads nutrient signals, which molecular players are involved, and why the balance between mTOR complexes determines whether you age faster or slower.
The FDA is piloting live data-streaming in clinical trials, promising faster drug approvals but raising concerns about data quality and bias.
A first-of-its-kind proteomics study finds acute cold exposure shifts 185 circulating proteins in a cardioprotective, anti-aging direction across independent cohorts.