Hsa-mir-548 family expression in human reproductive tissues

Abstract Background Hsa-miR-548ba expressed in ovarian granulosa cells targets PTEN and LIFR, which are essential for ovarian follicle activation and growth. The expression pattern of hsa-miR-548ba correlates with its host gene follicle-stimulating hormone receptor (FSHR), and FSH has a positive influence on hsa-miR-548ba expression. However, hsa-miR-548ba is a member of a large hsa-mir-548 family with potentially overlapping targets. The current study aims to investigate the co-expression of hsa-mir-548 family members in FSHR-positive reproductive tissues and to explore the potential co-regulation of pathways. Results For the above-described analysis, small RNA sequencing data from public data repositories were used. Sequencing results revealed that hsa-miR-548ba was expressed at the highest level in the ovarian granulosa cells and uterine myometrial samples together with another twelve and one hsa-miR-548 family members, respectively. Pathway enrichment analysis of microRNA targets in the ovarian samples revealed the hsa-miR-548ba and hsa-miR-548b-5p co-regulation of RAB geranylgeranylation in mural granulosa cells. Moreover, other hsa-mir-548 family members co-regulate pathways essential for ovarian functions (PIP3 activates AKT signalling and signalling by ERBB4). In addition to hsa-miR-548ba, hsa-miR-548o-3p is expressed in the myometrium, which separately targets the peroxisome proliferator-activated receptor alpha (PPARA) pathway. Conclusion This study reveals that hsa-mir-548 family members are expressed in variable combinations in the reproductive tract, where they potentially fulfil different regulatory roles. The results provide a reference for further studies of the hsa-mir-548 family role in the reproductive tract.

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OVARIAN GRANULOSA CELLS FROM WOMEN WITH PCOS EXPRESS LOW LEVELS OF SARS-COV-2 RECEPTORS AND CO-FACTORS

10.1101/2021.06.15.21259003 ◽

2021 ◽

Author(s):

Aalaap Anand Naigaonkar ◽

Krutika Madhukar Patil ◽

Shaini Joseph ◽

Indira Hinduja ◽

Srabani Mukherjee

Keyword(s):

Granulosa Cells ◽

Reproductive Tract ◽

Polycystic Ovary ◽

Ovarian Follicle ◽

Cell Types ◽

Female Reproductive Tract ◽

Vitro Fertilization ◽

Ovarian Granulosa Cells ◽

Lower Expression

Purpose: Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) infection is global pandemic with more than 3 million deaths so far. Female reproductive tract organs express coronavirus-associated receptors and factors (SCARFs); suggesting they may be susceptible to SARS-CoV-2 infection however the susceptibility of ovary/follicle/oocyte to the same is still elusive. Co-morbidities like obesity, type-2 diabetes mellitus, cardiovascular disease etc. increase the risk of SARS-CoV-2 infection. These features are common in women with polycystic ovary syndrome (PCOS), warranting further scope to study SCARFs expression in ovary of these women. Materials and methods: SCARFs expression in ovary and ovarian tissues of women with PCOS and healthy women was explored by analyzing publically available microarray datasets. Transcript expression of SCARFs were investigated in mural and cumulus granulosa cells (MGCs and CGCs) from control and PCOS women undergoing in vitro fertilization (IVF). Results: Microarray data revealed that ovary expresses all genes necessary for SARS-CoV-2 infection. PCOS women mostly showed down-regulated/unchanged levels of SCARFs. MGCs and CGCs from PCOS women showed lower expression of receptors ACE2, BSG and DPP4 and protease CTSB than in controls. MGCs showed lower expression of protease CTSL in PCOS than in controls. Expression of TMPRSS2 was not detected in both cell types. Conclusions: Human ovarian follicle may be susceptible to SARS-CoV-2 infection. Lower expression of SCARFs in PCOS indicate that the risk of SARS-CoV-2 infection to the ovary may be lesser in these women than controls. This knowledge may help in safe practices at IVF settings in the current pandemic. Keywords: SARS-CoV-2, COVID-19, Ovarian granulosa cells, Oocyte, PCOS, IVF

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Small RNA sequencing reveals distinct nuclear microRNAs in pig granulosa cells during ovarian follicle growth

Journal of Ovarian Research ◽

10.1186/s13048-021-00802-3 ◽

2021 ◽

Vol 14 (1) ◽

Author(s):

Derek Toms ◽

Bo Pan ◽

Yinshan Bai ◽

Julang Li

Keyword(s):

Granulosa Cells ◽

Small Rna ◽

High Throughput Sequencing ◽

Ovarian Function ◽

Ovarian Follicle ◽

Small Rna Sequencing ◽

Cell Fractionation ◽

Steroid Synthesis ◽

Non Coding Rna ◽

Dna Binding Sites

AbstractNuclear small RNAs have emerged as an important subset of non-coding RNA species that are capable of regulating gene expression. A type of small RNA, microRNA (miRNA) have been shown to regulate development of the ovarian follicle via canonical targeting and translational repression. Little has been done to study these molecules at a subcellular level. Using cell fractionation and high throughput sequencing, we surveyed cytoplasmic and nuclear small RNA found in the granulosa cells of the pig ovarian antral preovulatory follicle. Bioinformatics analysis revealed a diverse network of small RNA that differ in their subcellular distribution and implied function. We identified predicted genomic DNA binding sites for nucleus-enriched miRNAs that may potentially be involved in transcriptional regulation. The small nucleolar RNA (snoRNA) SNORA73, known to be involved in steroid synthesis, was also found to be highly enriched in the cytoplasm, suggesting a role for snoRNA species in ovarian function. Taken together, these data provide an important resource to study the small RNAome in ovarian follicles and how they may impact fertility.

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CRTC2 and Nedd4 ligase involvement in FSH and TGFβ1 upregulation of connexin43 gap junction

Journal of Molecular Endocrinology ◽

10.1530/jme-15-0076 ◽

2015 ◽

Vol 55 (3) ◽

pp. 263-275 ◽

Cited By ~ 6

Author(s):

Wei-Ling Fang ◽

Si-Yi Lai ◽

Wei-An Lai ◽

Ming-Ting Lee ◽

Ching-Fong Liao ◽

...

Keyword(s):

Gap Junction ◽

Ubiquitin Ligase ◽

Granulosa Cells ◽

Transforming Growth Factor Beta ◽

Transforming Growth Factor ◽

Ovarian Follicle ◽

Type I ◽

Dependent Manner ◽

Cx43 Expression ◽

Ovarian Granulosa Cells

The major mission of the ovarian follicle is the timely production of the mature fertilizable oocyte, and this is achieved by gonadotropin-regulated, gap junction-mediated cell–cell communication between the oocyte and surrounding nurturing granulosa cells. We have demonstrated that FSH and transforming growth factor beta 1 (TGFβ1) stimulate Gja1 gene-encoded connexin43 (Cx43) gap junction formation/function in rat ovarian granulosa cells is important for their induction of steroidogenesis; additionally, cAMP-protein kinase A (PKA)- and calcium-calcineurin-sensitive cAMP response element-binding (CREB) coactivator CRTC2 plays a crucial role during steroidogenesis. This study was to explore the potential molecular mechanism whereby FSH and TGFβ1 regulate Cx43 synthesis and degradation, particularly the involvement of CRTC2 and ubiquitin ligase Nedd4. Primary culture of granulosa cells from ovarian antral follicles of gonadotropin-primed immature rats was used. At 48 h post-treatment, FSH plus TGFβ1 increased Cx43 level and gap junction function in a PKA- and calcineurin-dependent manner, and TGFβ1 acting through its type I receptor modulated FSH action. Chromatin-immunoprecipitation analysis reveals FSH induced an early-phase (45 min) and FSH+TGFβ1 further elicited a late-phase (24 h) increase in CRTC2, CREB and CBP binding to the Gja1 promoter. Additionally, FSH+TGFβ1 increased the half-life of hyper-phosphorylated Cx43 (Cx43-P2). Also, the proteasome inhibitor MG132 prevented the brefeldin A (blocker of protein transport through Golgi)-reduced Cx43-P2 level and membrane Cx43 gap junction plaque. This is associated with FSH+TGFβ1-attenuated Cx43 interaction with Nedd4 and Cx43 ubiquitination. In all, this study uncovers that FSH and TGFβ1 upregulation of Cx43 gap junctions in ovarian granulosa cells critically involves enhancing CRTC2/CREB/CBP-mediated Cx43 expression and attenuating ubiquitin ligase Nedd4-mediated proteosomal degradation of Cx43 protein.

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cDNA cloning reveals the potential of human ovarian granulosa cells to secrete collagenase inhibitor

Acta Endocrinologica ◽

10.1530/acta.0.120s138 ◽

1989 ◽

Vol 120 (3_Suppl) ◽

pp. S138

Author(s):

J. FREUDENSTEIN ◽

J. MUCHA ◽

G. RAPP ◽

K. H. SHEIT

Keyword(s):

Cdna Cloning ◽

Granulosa Cells ◽

Ovarian Granulosa Cells ◽

Collagenase Inhibitor

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EFFECTS OF LIPOPOLYSACCHARIDEINDUCED ENDOTOXEMIA ON OOCYTE MEIOTIC MATURATION, DNA DAMAGE AND VIABILITY OF OVARIAN GRANULOSA CELLS IN MICE

Proceedings of the III International Conference on Biology and Medical Sciences: Innovations and practice ◽

10.29013/iii-conf-med-pp-3-35-41 ◽

2018 ◽

Author(s):

O. Kondratska ◽

N. Grushka ◽

N. Makogon ◽

S. Pavlovych ◽

R. Yanchii

Keyword(s):

Dna Damage ◽

Granulosa Cells ◽

Meiotic Maturation ◽

Ovarian Granulosa Cells ◽

Oocyte Meiotic Maturation

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Faculty Opinions recommendation of Androgen receptor and miRNA-126* axis controls follicle-stimulating hormone receptor expression in porcine ovarian granulosa cells.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.726379391.793519335 ◽

2016 ◽

Author(s):

Steve Hillier

Keyword(s):

Androgen Receptor ◽

Granulosa Cells ◽

Hormone Receptor ◽

Follicle Stimulating Hormone ◽

Receptor Expression ◽

Ovarian Granulosa Cells ◽

Hormone Receptor Expression ◽

Stimulating Hormone

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Human Granulosa Cells—Stemness Properties, Molecular Cross-Talk and Follicular Angiogenesis

Cells ◽

10.3390/cells10061396 ◽

2021 ◽

Vol 10 (6) ◽

pp. 1396

Author(s):

Claudia Dompe ◽

Magdalena Kulus ◽

Katarzyna Stefańska ◽

Wiesława Kranc ◽

Błażej Chermuła ◽

...

Keyword(s):

Stem Cells ◽

Granulosa Cells ◽

Polycystic Ovary ◽

Ovarian Follicle ◽

Cumulus Cells ◽

Ovary Syndrome ◽

Different Types ◽

Metabolite Exchange ◽

Reproductive Techniques ◽

New Strategies

The ovarian follicle is the basic functional unit of the ovary, comprising theca cells and granulosa cells (GCs). Two different types of GCs, mural GCs and cumulus cells (CCs), serve different functions during folliculogenesis. Mural GCs produce oestrogen during the follicular phase and progesterone after ovulation, while CCs surround the oocyte tightly and form the cumulus oophurus and corona radiata inner cell layer. CCs are also engaged in bi-directional metabolite exchange with the oocyte, as they form gap-junctions, which are crucial for both the oocyte’s proper maturation and GC proliferation. However, the function of both GCs and CCs is dependent on proper follicular angiogenesis. Aside from participating in complex molecular interplay with the oocyte, the ovarian follicular cells exhibit stem-like properties, characteristic of mesenchymal stem cells (MSCs). Both GCs and CCs remain under the influence of various miRNAs, and some of them may contribute to polycystic ovary syndrome (PCOS) or premature ovarian insufficiency (POI) occurrence. Considering increasing female fertility problems worldwide, it is of interest to develop new strategies enhancing assisted reproductive techniques. Therefore, it is important to carefully consider GCs as ovarian stem cells in terms of the cellular features and molecular pathways involved in their development and interactions as well as outline their possible application in translational medicine.

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