Department of Endocrinology & Tissue Culture, Institute of Zoology, Jagiellonian University, Ingardena 6, Krakow, Poland.
Anim Reprod Sci. 2010 Aug;121(1-2):167-73. doi: 10.1016/j.anireprosci.2010.04.012. Epub 2010 Apr 18.
Progesterone plays a central role in the regulation of ovarian functions. Progesterone receptor (PGR) is expressed as two isoforms, PGRA and PGRB, which have been shown to have different functional activities. This immunohistochemical study describes the diverse localization of PGRA and PGRB in the porcine ovarian components: small and large antral follicles, early, midluteal and regressing corpora lutea. Ovaries were obtained from 10 cycling sows. PGRs were visualized by immunohistochemistry on paraffin sections using monoclonal antibodies against PGRA (clone 16) or PGRB (clone SAN 27). Moreover, to confirm the specificity of antibodies, Western blot analysis was performed. Nuclear staining for PGRs was observed in cells of granulosa and theca layer, corpora lutea and surface epithelium. Our results revealed that PGRA was the predominant PGR isoform in the pig ovary. In small antral follicles its expression was restricted to theca interna cells, but in large preovulatory follicles, both granulosa and theca layers stained for PGRA. In contrast, immunoreaction for PGRB isoform was limited to granulosa cells of large antral porcine follicles, while their theca layers were devoid of PGRB. The number of both PGRA and PGRB stained cells within the corpora lutea declined significantly during the luteal phase, which might be explained by the decreasing level of locally produced progesterone. The differential distribution and variations in the scores for PGRA and PGRB in various pig ovarian cell types during the cycle may reflect diverse functions for PGRA and PGRB as well as suggest a cell-specific influence of progesterone.
孕激素在调节卵巢功能方面发挥着核心作用。孕激素受体(PGR)有两种亚型,PGRA 和 PGRB,它们具有不同的功能活性。这项免疫组织化学研究描述了 PGRA 和 PGRB 在猪卵巢成分中的不同定位:小和大的窦卵泡、早期、中期黄体和退化黄体。卵巢取自 10 头循环母猪。使用针对 PGRA(克隆 16)或 PGRB(克隆 SAN 27)的单克隆抗体,通过免疫组织化学在石蜡切片上显示 PGRs。此外,为了确认抗体的特异性,进行了 Western blot 分析。PGRs 的核染色在颗粒细胞和膜细胞、黄体和表面上皮的细胞中观察到。我们的结果表明,PGRA 是猪卵巢中主要的 PGR 亚型。在小的窦卵泡中,其表达仅限于膜内层细胞,但在大的排卵前卵泡中,颗粒细胞和膜细胞都对 PGRA 进行了染色。相比之下,PGRB 亚型的免疫反应仅限于大的猪窦卵泡的颗粒细胞,而它们的膜细胞则缺乏 PGRB。黄体期黄体中 PGRA 和 PGRB 染色细胞的数量显著下降,这可能是由于局部产生的孕激素水平下降所致。在周期中不同的猪卵巢细胞类型中,PGRA 和 PGRB 的分布和评分差异可能反映了 PGRA 和 PGRB 的不同功能,并暗示了孕激素的细胞特异性影响。
