Department of Infertility and Reproductive Endocrinology, Poznan University of Medical Sciences, Poznan, Poland.
Department of Cancer Immunology, Chair of Medical Biotechnology, Poznan University of Medical Sciences, Poland.
Biomed Res Int. 2019 Jan 30;2019:6545210. doi: 10.1155/2019/6545210. eCollection 2019.
The physiological processes that drive the development of ovarian follicle, as well as the process of oogenesis, are quite well known. Granulosa cells are major players in this occurrence, being the somatic element of the female gamete development. They participate directly in the processes of oogenesis, building the cumulus-oocyte complex surrounding the ovum. In addition to that, they have a further impact on the reproductive processes, being a place of steroid sex hormone synthesis and secretion. It is known that the follicle development creates a major need for angiogenesis and blood vessel development in the ovary. In this study, we use novel molecular approaches to analyze markers of these processes in porcine granulosa cultured primarily The cells were recovered from mature specimen after slaughter. They were then subjected to enzymatic digestion and culture primarily for a short term. The RNA was extracted from cultures in specific time periods (0h, 24h, 48h, 96h, and 144h) and analyzed using expression microarrays. The genes that exhibited fold change bigger than |2|, and adjusted p-value lower than 0.05, were considered differentially expressed. From these, we have chosen the members of "angiogenesis," "blood vessel development," "blood vessel morphogenesis," "cardiovascular system development," and "vasculature development" for further selection. and which are upregulated, as well as and genes whose expression is downregulated through the time of culture, were chosen as the potential markers, as their expression varied the most during the time of culture. The fold changes were further validated with RT-qPCR. The genes were described, with special attention to their possible function in GCs during culture. The results broaden the general knowledge about GC's molecular processes and might serve as a point of reference for further and clinical studies.
卵泡发生和卵子发生的生理过程已经相当清楚。颗粒细胞是这一过程的主要参与者,是雌性配子发育的体细胞成分。它们直接参与卵子发生过程,构建围绕卵子的卵丘-卵母细胞复合体。此外,它们对生殖过程有进一步的影响,是类固醇性激素合成和分泌的场所。众所周知,卵泡发育在卵巢中产生了对血管生成和血管发育的主要需求。在这项研究中,我们使用新的分子方法来分析猪颗粒细胞培养过程中这些过程的标记物。这些细胞是从屠宰后的成熟标本中回收的。然后,它们经过酶消化并进行短期培养。在特定时间点(0h、24h、48h、96h 和 144h)从培养物中提取 RNA,并使用表达微阵列进行分析。选择倍数变化大于|2|且调整后的 p 值低于 0.05 的基因作为差异表达基因。从中,我们选择了“血管生成”、“血管发育”、“血管形态发生”、“心血管系统发育”和“脉管系统发育”的成员进行进一步选择。和在培养过程中上调的基因,以及和表达下调的基因,被选为潜在的标记物,因为它们在培养过程中的表达变化最大。使用 RT-qPCR 进一步验证了倍数变化。对基因进行了描述,特别注意它们在培养过程中在 GC 中的可能功能。这些结果扩展了关于 GC 分子过程的一般知识,并可能为进一步的研究和临床研究提供参考。
