颗粒细胞中硒吸收受体 LRP8、抗氧化硒蛋白 GPX1 和类固醇生成酶的表达水平相关。

IF 2.8 Q2 REPRODUCTIVE BIOLOGY
Reproduction & fertility Pub Date : 2024-08-02 Print Date: 2024-07-01 DOI:10.1530/RAF-23-0074
Katja Hummitzsch, Jasmine E Kelly, Nicholas Hatzirodos, Wendy M Bonner, Feng Tang, Hugh H Harris, Raymond J Rodgers
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引用次数: 0

摘要

活性氧(ROS)是细胞色素 P450 类固醇生成酶活动的副产品。抗氧化酶可防止 ROS 损伤。为了确定在卵泡增大和产生雌二醇的过程中是否有特定的抗氧化酶用于保护颗粒细胞免受 ROS 的伤害,我们测量了牛颗粒细胞中对孕酮和雌二醇的产生非常重要的两种类固醇生成酶(CYP11A1 和 CYP19A1)的表达。我们还测量了其电子传递链(ETC)成员(FDXR、FDX、POR)的表达。我们测量了抗氧化酶(GPXs 1-8、CAT、SODs 1 和 2、PRDXs 1-6、GSR、TXN、TXNRDs 1-3)。由于硒是 GPXs 的活性成分,因此对硒吸收受体(LRPs 2 和 8)进行了测量。随着卵泡体积的增大,只有依赖硒的 GPX1 的表达量与类固醇生成酶的表达量相同。GPX4和PRDX2/6的表达量随卵泡大小而减少,而SOD1/2、CAT、GSR和TXNRD3的表达量在卵泡中等大小时最低。其他抗氧化酶没有变化或表达量较低。硒吸收受体 LRP8 的表达也随着卵泡大小的增加而显著增加。相关性分析表明,类固醇生成酶及其 ETC 与 GPX1 和 LRP8 存在统计学意义上的显著正相关。这些结果表明了参与类固醇生成的基因表达与含硒抗氧化防御机制之间的关系。这些结果表明,在卵泡生成的晚期阶段,颗粒细胞依赖于 GPX1 和硒转运体 LRP8 的充分表达来抵消因类固醇激素的产生而增加的 ROS 水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Expression levels of the selenium-uptake receptor LRP8, the antioxidant selenoprotein GPX1 and steroidogenic enzymes correlate in granulosa cells.

Abstract: Reactive oxygen species (ROS) are a by-product of the activity of cytochrome P450 steroidogenic enzymes. Antioxidant enzymes protect against ROS damage. To identify if any particular antioxidant enzyme is used to protect against ROS produced by granulosa cells as follicles enlarge and produce oestradiol, we measured in the bovine granulosa cells the expression of two steroidogenic enzymes (CYP11A1, CYP19A1), important for progesterone and oestradiol production. We also measured the expression of the members (FDXR, FDX1, POR) of their electron transport chains (ETC). We measured antioxidant enzymes (GPXs 1-8, CAT, SODs 1 and 2, PRDXs 1-6, GSR, TXN, TXNRDs 1-3). Since selenium is an active component of GPXs, the selenium-uptake receptors (LRPs 2 and 8) were measured. Only the selenium-dependent GPX1 showed the same increase in expression as the steroidogenic enzymes did with increasing follicle size. GPX4 and PRDX2/6 decreased with follicle size, whereas SOD1/2, CAT, GSR, and TXNRD3 were lowest at the intermediate sizes. The other antioxidant enzymes were unchanged or expressed at low levels. The expression of the selenium-uptake receptor LRP8 also increased significantly with follicle size. Correlation analysis revealed statistically significant and strongly positive correlations of the steroidogenic enzymes and their ETCs with both GPX1 and LRP8. These results demonstrate a relationship between the expression of genes involved in steroidogenesis and selenium-containing antioxidant defence mechanisms. They suggest that during the late stages of folliculogenesis, granulosa cells are dependent on sufficient expression of GPX1 and the selenium transporter LRP8 to counteract increasing ROS levels caused by the production of steroid hormones.

Lay summary: In the ovary, eggs are housed in follicles which contain the cells that produce oestrogen in the days leading up to ovulation of the egg. Oestrogen is produced by the action of enzymes. However, some of these enzymes also produce by-products called reactive oxygen species (ROS). These are harmful to eggs. Fortunately, cells have protective antioxidant enzymes that can neutralise ROS. This study was interested in which particular antioxidant enzyme(s) might be involved in neutralising the ROS in follicle cells. It was found that only one antioxidant enzyme, GPX1, appeared to be co-regulated with the enzymes that produce oestrogen and progesterone in the follicular cells. GPX1 contains the essential mineral selenium. In summary, this study has identified which antioxidant appears to be involved in neutralising ROS in the days leading to ovulation. It highlights the importance of selenium in the diet.

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