Age Mosaicism across Multiple Scales in Adult Tissues

AUTHORS

Arrojo e Drigo Rafael , Lev-Ram Varda , Tyagi Swati , Ramachandra Ranjan , Deerinck Thomas , Bushong Eric , Phan Sebastien , Orphan Victoria , Lechene Claude , Ellisman Mark , Hetzer Martin . Cell Metabolism. 2019 8 ; 6(2).

ABSTRACT

Most neurons are not replaced during an animal’s lifetime. This non-dividing state is characterized by extreme longevity and age-dependent decline of key regulatory proteins. To study the lifespans of cells and proteins in adult tissues, we combined isotope labeling of mice with a hybrid imaging method (MIMS-EM). Using ¹⁵N mapping, we show that liver and pancreas are composed of cells with vastly different ages, many as old as the animal. Strikingly, we also found that a subset of fibroblasts and endothelial cells, both known for their replicative potential, are characterized by the absence of cell division during adulthood. In addition, we show that the primary cilia of beta cells and neurons contains different structural regions with vastly different lifespans. Based on these results, we propose that age mosaicism across multiple scales is a fundamental principle of adult tissue, cell, and protein complex organization.