A new study from the Salk Institute maps how the aging brain changes at the epigenetic level — cell type by cell type.
The researchers created one of the most detailed single-cell atlases yet of the aging mouse brain, spanning 8 brain regions, 36 cell types, and hundreds of thousands of cells. They found major age-related changes in DNA methylation, chromatin structure, and gene activity, with some of the strongest changes appearing in non-neuronal cells.
This kind of work matters because it moves brain aging closer to mechanism — not just describing decline, but identifying the molecular regulatory shifts that may drive vulnerability to neurodegenerative disease.
Highlights Salk researchers create epigenetic atlas of cell type-specific changes in the aging mouse brain The atlas represents eight different brain regions and 36 different cell types, and shows clear epigenetic differences associated with different ages The new resource—available publicly on Amazon Web services—can be used to unravel age-related contributions to neurodegenerative diseases like Alzheimer’s, Parkinson’s, and ALS LA JOLLA—Neurodegenerative diseases affect more than 57 million people globally. The incidence of these diseases, from Alzheimer’s to Parkinson’s to ALS and beyond, is expected to double every 20 years. Though scientists know aging is a major risk factor for neurodegenerative diseases, the full mechanisms behind aging’s impact remain unclear.
