New gene markers involved in regulation of granulosa cells development and differentiation towards endodermal and epithelial tissues – a new insight into the stemness specificity of ovarian follicular cells

Q4 Biochemistry, Genetics and Molecular Biology

Medical Journal of Cell Biology Pub Date : 2021-12-01 DOI:10.2478/acb-2021-0025

W. Kranc, M. Popis, C. Dompe, A. Golkar-Narenji, M. Ješeta, P. Mozdziak, E. Kistanova, A. Makarevich, M. Machatkova, D. Bukowska, R. Procházka, J. Jaśkowski, Kornel Ratajczak, J. Sobolewski, P. Antosik

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Abstract

Abstract Maintaining of female fertility is strictly dependent on proper hormonal regulation. Granulosa cells (GCs) are components of ovarian follicles, and they are important in paracrine regulation of the ovary. Preovulatory follicle GCs are responsible for production of estrogens to the ovary microenvironment and lead to the LH surge. Proper functioning of GCs is necessary to ensure appropriate conditions for oocyte development, maturation, ovulation and its release to the oviduct. Long-term in vitro culture of GCs show significant stem-like characteristics. Understanding the molecular processes underlying GCs differentiation towards different cell lineages may reveal other possible stem cell markers. A transcriptomic analysis of short-term primary in vitro cultured GCs, which were isolated from porcine preovulatory follicles was the major focus of the study. The ontological groups herby considered are associated with endodermal and epithelial tissues. Results were and compare to freshly isolated GC cells. 6 the most reduced expression: HSD17B1, DAPL1, NEBL, MAL2, DAB1, ITM2A were chosen for analysis. These genes have been response for processes associated with GCs development and differentiation towards endodermal and epithelial tissues, which make them important for further consideration.

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参与颗粒细胞向内胚层和上皮组织发育和分化调控的新基因标记——对卵巢滤泡细胞干性特异性的新认识

女性生育能力的维持严格依赖于适当的激素调节。颗粒细胞(GCs)是卵巢卵泡的组成部分，在卵巢旁分泌调节中起重要作用。排卵前卵泡GCs负责向卵巢微环境产生雌激素并导致黄体生成素激增。GCs的正常功能是确保卵母细胞发育、成熟、排卵及其释放到输卵管的适当条件所必需的。GCs长期离体培养表现出明显的茎样特征。了解GCs向不同细胞系分化的分子过程可以揭示其他可能的干细胞标记物。从猪排卵前卵泡中分离的短期原代体外培养GCs的转录组学分析是本研究的主要重点。这里考虑的本体论组与内胚层和上皮组织有关。结果与新鲜分离的GC细胞比较。选取表达量减少最多的6个:HSD17B1、DAPL1、NEBL、MAL2、DAB1、ITM2A进行分析。这些基因在GCs向内胚层和上皮组织的发育和分化过程中起着重要作用，值得进一步研究。

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Medical Journal of Cell Biology Biochemistry, Genetics and Molecular Biology-Cell Biology

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