Cell Reports (Apr 2020)
Region-Specific Proteome Changes of the Intestinal Epithelium during Aging and Dietary Restriction
Abstract
Summary: The small intestine is responsible for nutrient absorption and one of the most important interfaces between the environment and the body. During aging, changes of the epithelium lead to food malabsorption and reduced barrier function, thus increasing disease risk. The drivers of these alterations remain poorly understood. Here, we compare the proteomes of intestinal crypts from mice across different anatomical regions and ages. We find that aging alters epithelial immunity, metabolism, and cell proliferation and is accompanied by region-dependent skewing in the cellular composition of the epithelium. Of note, short-term dietary restriction followed by refeeding partially restores the epithelium by promoting stem cell differentiation toward the secretory lineage. We identify Hmgcs2 (3-hydroxy-3-methylglutaryl-coenzyme A [CoA] synthetase 2), the rate-limiting enzyme for ketogenesis, as a modulator of stem cell differentiation that responds to dietary changes, and we provide an atlas of region- and age-dependent proteome changes of the small intestine. : Using proteomics, Gebert et al. find that aging has region-specific effects on the small intestine epithelium of mice. These effects can be partially reversed by modulating ketone body signaling in intestinal stem cells via dietary interventions. Keywords: proteomics, aging, intestine, stem cells, ketone bodies, dietary restriction, hmgcs2
