间质细胞自噬是甾体形成的先决条件吗?

Ji-Eun Park, Yoon-Jae Kim, Jong-Min Kim
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摘要

我们研究了睾丸间质细胞中自噬与甾体生成的关系。在自噬抑制剂3-甲基腺嘌呤(3-MA)存在的情况下,人绒毛膜促性腺激素(hCG)刺激的间质细胞T的产生没有显著改变。虽然3-MA预处理有减少hCG诱导的T产生的趋势,但差异仅在hCG后24 h的较高时间点上才有统计学意义。所有实验均在对照细胞中检测到微管相关蛋白轻链3 (LC3)-II。hcg诱导的类固醇急性调节蛋白(StAR)和细胞色素P450侧链切割(P450scc)蛋白水平的升高未被3-MA显著改变。与对照组相比,hCG处理12小时后从未成熟大鼠睾丸分离的间质细胞显示LC3-II蛋白水平相对增加。此外,这些细胞中的LC3-II水平几乎与正常成年睾丸中的LC3-II水平相同。然而,在hCG后48小时,LC3-II蛋白水平几乎与对照组相当,甚至略低于对照组。在hCG后12和48 h, StAR和P450scc的表达均上调。我们在实验中也使用了小鼠间质细胞系MA-10细胞。MA-10细胞处理二丁基环amp后,细胞培养液中P4水平显著升高。而P4水平在3-MA存在时有降低的趋势,但差异无统计学意义。这与大鼠间质细胞实验的结果一致。综上所述,我们认为,尽管自噬参与了类固醇生成并增强了间质细胞的类固醇生成功效,但它可能不是类固醇生成的决定性细胞过程,特别是在成熟的间质细胞中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Is Autophagy a Prerequisite for Steroidogenesis in Leydig Cells?
We investigated the involvement of autophagy with steroidogenesis in testicular Leydig cells. Human chorionic gonadotropin (hCG)-stimulated T production in Leydig cells was not remarkably altered in the presence of an autophagy inhibitor 3-methyladenine (3-MA). Although pretreatment with 3-MA demonstrated a tendency to decrease hCG-induced T production, the differences were significant only at a higher time point of 24 h following hCG. Microtubule associated protein light chain 3 (LC3)-II was detectable in the control cells in all the experiments. The hCG-induced increase in steroidogenic acute regulatory protein (StAR) and cytochrome P450 side chain cleave (P450scc) protein levels were not significantly altered by 3-MA. Leydig cells isolated from immature rat testes 12 h following hCG treatment showed relatively increased levels of LC3-II protein compared to the control group. Furthermore, LC3-II levels shown in these cells reached almost the identical to those from normal adult testes. However, LC3-II protein levels were almost comparable or even slightly lower than the controls at 48 h following hCG. Expression of StAR and P450scc was upregulated at both 12 and 48 h after hCG. We also used MA-10 cells, the mouse Leydig cell line, in this experiment. When dibutyryl cyclic-AMP was treated with MA-10 cells, P4 levels were significantly increased in the cell culture medium. However, P4 levels tended to decrease in the presence of 3-MA, but the difference was not statistically significant. This was consistent with the results of the rat Leydig cell experiments. Together, we believe that although autophagy participates in steroidogenesis and enhances steroidogenic efficacy of Leydig cells, it may not be a decisive cellular process for steroidogenesis, specifically in the mature Leydig cells.
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