1. Academic Validation
  2. miR-135a Suppresses Granulosa Cell Growth by Targeting Tgfbr1 and Ccnd2 during Folliculogenesis in Mice

miR-135a Suppresses Granulosa Cell Growth by Targeting Tgfbr1 and Ccnd2 during Folliculogenesis in Mice

  • Cells. 2021 Aug 17;10(8):2104. doi: 10.3390/cells10082104.
Lei Wang 1 Yaru Chen 1 Shang Wu 1 Jinhua Tang 1 Gaogui Chen 1 Fenge Li 1 2
Affiliations

Affiliations

  • 1 Key Laboratory of Swine Genetics and Breeding of Ministry of Agriculture and Rural Affairs & Key Laboratory of Agricultural Animal Genetics, Breeding and Reproduction of Ministry of Education, Huazhong Agricultural University, Wuhan 430070, China.
  • 2 The Cooperative Innovation Center for Sustainable Pig Production, Wuhan 430070, China.
Abstract

The success of female reproduction relies on high quality oocytes, which is determined by well-organized cooperation between granulosa cells (GCs) and oocytes during folliculogenesis. GC growth plays a crucial role in maintaining follicle development. Herein, miR-135a was identified as a differentially expressed MicroRNA in pre-ovulatory ovarian follicles between Large White and Chinese Taihu sows detected by Solexa deep Sequencing. We found that miR-135a could significantly facilitate the accumulation of cells arrested at the G1/S phase boundary and increase Apoptosis. Mechanically, miR-135a suppressed transforming growth factor, beta receptor I (Tgfbr1) and cyclin D2 (Ccnd2) expression by targeting their 3'UTR in GCs. Furthermore, subcellular localization analysis and a chromatin immunoprecipitation-quantitative Real-Time PCR (ChIP-qPCR) assay demonstrated that the TGFBR1-SMAD3 pathway could enhance Ccnd2 promoter activity and thus upregulate Ccnd2 expression. Finally, Estrogen receptor 2 (ESR2) functioned as a transcription factor by directly binding to the miR-135a promoter region and decreasing the transcriptional activity of miR-135a. Taken together, our study reveals a pro-survival mechanism of ESR2/miR-135a/Tgfbr1/Ccnd2 axis for GC growth, and also provides a novel target for the improvement of female fertility.

Keywords

Ccnd2; ESR2; Tgbf1; cell growth; folliculogenesis; miR-135a; mice.

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