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SRSF1 regulates primordial follicle formation and number determination during meiotic prophase I.

Authors :
Sun L
Lv Z
Chen X
Wang C
Lv P
Yan L
Tian S
Xie X
Yao X
Liu J
Wang Z
Luo H
Cui S
Liu J
Source :
BMC biology [BMC Biol] 2023 Mar 08; Vol. 21 (1), pp. 49. Date of Electronic Publication: 2023 Mar 08.
Publication Year :
2023

Abstract

Background: Ovarian folliculogenesis is a tightly regulated process leading to the formation of functional oocytes and involving successive quality control mechanisms that monitor chromosomal DNA integrity and meiotic recombination. A number of factors and mechanisms have been suggested to be involved in folliculogenesis and associated with premature ovarian insufficiency, including abnormal alternative splicing (AS) of pre-mRNAs. Serine/arginine-rich splicing factor 1 (SRSF1; previously SF2/ASF) is a pivotal posttranscriptional regulator of gene expression in various biological processes. However, the physiological roles and mechanism of SRSF1 action in mouse early-stage oocytes remain elusive. Here, we show that SRSF1 is essential for primordial follicle formation and number determination during meiotic prophase I.<br />Results: The conditional knockout (cKO) of Srsf1 in mouse oocytes impairs primordial follicle formation and leads to primary ovarian insufficiency (POI). Oocyte-specific genes that regulate primordial follicle formation (e.g., Lhx8, Nobox, Sohlh1, Sohlh2, Figla, Kit, Jag1, and Rac1) are suppressed in newborn Stra8-GFPCre Srsf1 <superscript>Fl/Fl</superscript> mouse ovaries. However, meiotic defects are the leading cause of abnormal primordial follicle formation. Immunofluorescence analyses suggest that failed synapsis and an inability to undergo recombination result in fewer homologous DNA crossovers (COs) in the Srsf1 cKO mouse ovaries. Moreover, SRSF1 directly binds and regulates the expression of the POI-related genes Six6os1 and Msh5 via AS to implement the meiotic prophase I program.<br />Conclusions: Altogether, our data reveal the critical role of an SRSF1-mediated posttranscriptional regulatory mechanism in the mouse oocyte meiotic prophase I program, providing a framework to elucidate the molecular mechanisms of the posttranscriptional network underlying primordial follicle formation.<br /> (© 2023. The Author(s).)

Details

Language :
English
ISSN :
1741-7007
Volume :
21
Issue :
1
Database :
MEDLINE
Journal :
BMC biology
Publication Type :
Academic Journal
Accession number :
36882745
Full Text :
https://doi.org/10.1186/s12915-023-01549-7