Atg9A-mediated mitophagy is required for decidual differentiation of endometrial stromal cells.

Abstract

Endometrial decidualization is the foundation of a healthy pregnancy. Mitochondrial dysfunction is an independent cause of disease for energy-intensive organs. Mitochondrial homeostasis plays a key role in the differentiation processes of many cell types. We showed increased activation of mitophagy (mitochondrial autophagy) in the decidua compared with proliferative or secretory endometrium. To better comprehend the mechanisms underlying healthy conception, understanding the mechanism of endometrial stromal cell decidualization is of great importance. Here, we artificially induced decidualization of a human endometrial stromal cell line (T HESCs) and characterized subsequent activation of mitophagy using immunofluorescence assay, electron microscopy and Western blot assay. Knockdown of autophagy-related 9A (ATG9A) led to an obvious reduction of mitophagy and deficiencies in decidualization. Our findings demonstrate a key role for proper mitochondrial dynamics in decidual differentiation and identify ATG9A-mediated mitophagy as a novel therapeutic target for repeated implantation failure or recurrent abortion.