Endometrial stromal cell autophagy-dependent ferroptosis caused by iron overload in ovarian endometriosis is inhibited by the ATF4-xCT pathway

Ferroptosis is an iron-dependent programmed cell death process characterised by the accumulation of lethal oxidative damage. Localised iron overload is a unique clinical phenomenon in ovarian endometriosis. However, the role and mechanism of Ferroptosis in the course of ovarian endometriosis remain unclear. Traditionally, Autophagy promotes cell survival. However, a growing body of research suggests that Autophagy promotes Ferroptosis under certain conditions. This study aimed to clarify the status of Ferroptosis in ovarian endometriosis and explore the mechanism(s) by which iron overload causes Ferroptosis and ectopic endometrial resistance to Ferroptosis in human. The results showed increased levels of iron and Reactive Oxygen Species in ectopic endometrial stromal cells. Some Ferroptosis and Autophagy proteins in the ectopic tissues differed from those in the eutopic endometrium. In vitro, iron overload caused decreased cellular activity, increased lipid peroxidation levels, and mitochondrial morphological changes, whereas Ferroptosis inhibitors alleviated these phenomena, illustrating activated Ferroptosis. Iron overload increased Autophagy, and Ferroptosis caused by iron overload was inhibited by Autophagy inhibitors, indicating that Ferroptosis caused by iron overload was autophagy-dependent. We also confirmed the effect of iron overload and Autophagy on lesion growth in vivo by constructing a mouse endometriosis model; the results were consistent with those of the in vitro experiments of human tissue and endometrial stomal cells. However, ectopic lesions in patients can resist Ferroptosis caused by iron overload, which can promote cystine/glutamate transporter hyperexpression by highly expressing activating transcription factor 4 (ATF4). In summary, local iron overload in ovarian endometriosis can activate autophagy-related Ferroptosis in endometrial stromal cells, and ectopic lesions grow in a high-iron environment via ATF4-xCT while resisting Ferroptosis. The effects of iron overload on other cells in the endometriosis environment require further study. This study deepens our understanding of the role of Ferroptosis in ovarian endometriosis.

activated transcription factor 4; autophagy-dependent ferroptosis; cystine/glutamate transporter; endometrial stromal cells; endometriosis; ferroptosis resistance; iron overload.