Abstract
Obese men have lower circulating testosterone than men with an optimal body mass index. Elevated fatty acids (FAs) caused by obesity have been reported to suppress the steroidogenesis of Leydig cells. Recent studies have demonstrated that autophagy regulates steroidogenesis in endocrine cells; however, few studies have investigated the molecular mechanisms of FA-impaired steroidogenesis. To study FA regulation in the steroidogenesis of Leydig cells, MA-10 cells were treated with an FA mixture and co-treated with 8-Br-cAMP to stimulate the steroidogenesis capacity. We showed that FAs led to cellular lipid accumulation and decreased steroidogenesis of MA-10 cells, and FA-suppressed steroidogenesis was largely recovered by P5 treatment but not by 22R-OHC treatment, suggesting the primary defect was the deficiency of CYP11A1. To examine the involvement of autophagy in the steroidogenesis of Leydig cells, we treated MA-10 cells with autophagy regulators, including rapamycin, bafilomycin, and chloroquine. Inhibition of late-stage autophagy including FA-upregulated Rubicon suppressed the steroidogenesis of MA-10 cells. More interestingly, Rubicon played a novel regulatory role in the steroidogenesis of MA-10 cells, independent of inhibitors of late-stage autophagy. Collectively, this study provides novel targets to investigate the interaction between FAs and steroidogenesis in steroidogenic cells.
Highlights
Obese men have lower circulating testosterone than men with an optimal body mass index
Previous studies have shown that fatty acids (FAs) decrease the steroidogenesis of Leydig cells and autophagy regulates steroid production, no study has investigated the connection between FA-suppressed steroidogenesis and autophagy
To understand whether increasing the FA levels would inhibit the steroidogenesis of Leydig cells, we first constructed an in vitro platform using mouse Leydig cell line MA-10 treated with different concentrations of an FA mixture for 48 h
Summary
Obese men have lower circulating testosterone than men with an optimal body mass index. Elevated fatty acids (FAs) caused by obesity have been reported to suppress the steroidogenesis of Leydig cells. Previous studies have identified FFA inhibition in the steroid production of Leydig cells, few have investigated the molecular mechanisms underlying the suppressed steroidogenesis of Leydig cells under physiological conditions of FFAs during obesity. Previous studies have shown that FAs decrease the steroidogenesis of Leydig cells and autophagy regulates steroid production, no study has investigated the connection between FA-suppressed steroidogenesis and autophagy. We first constructed a suppressed steroidogenesis model using the mouse Leydig cell line MA-10 treated with a suitable concentration and composition of FAs. To test our hypothesis, we applied autophagy regulators to FA-treated MA-10 cells to further investigate the underlying molecular mechanisms. We examined whether the regulation of autophagy homeostasis improved FA-suppressed steroidogenic signaling
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