Active integrins regulate white adipose tissue insulin sensitivity and brown fat thermogenesis

Abstract

AbstractReorganization of the extracellular matrix is a prerequisite for healthy adipose tissue expansion, whereas fibrosis is a key feature of adipose dysfunction and inflammation. However, very little is known about the direct effects of impaired cell-matrix interaction in adipocyte function and insulin sensitivity. Using adipose selective deletion of β1 integrin (Itgb1adipo-cre) and Kindlin-2 (Kind2adipo-cre), we demonstrate here that active β1 and β3 integrins directly interact with the insulin receptor to regulate white adipocyte insulin action and systemic metabolism. Consequently, loss of adipose integrin activity, similar to loss of adipose insulin receptors, results in lipodystrophy and systemic insulin resistance. Conversely, we find that brown adipose tissue of Kind2adipo-cre and Itgb1adipo-cre mice is chronically hyperactivated, and has increased substrate delivery, reduced endothelial basement membrane thickness, and increased endothelial vesicular transport. Thus, we establish integrin-extracellular matrix interactions as key regulators of white and brown adipose tissue function and whole body metabolism.