| Author |
Marlène Davilma, Stéphanie Gay, Manon Thomas, Sully Mak, Fabrice Mahé, Laurence Dubreil, Jérôme Montfort, Aurélien Brionne, Julien Bobe, Violette Thermes
|
| Abstract |
ABSTRACT
MicroRNAs (miRNAs) are known regulators of ovarian function in vertebrates, yet their physiological roles in fish reproduction remain poorly understood. Here, we identified miR
-
187 as one of the most ovarian-enriched miRNAs in medaka (
Oryzias latipes
) and we uncovered its function
in vivo
using CRISPR/Cas9-mediated gene inactivation. miR-187-3p is expressed in oocytes and granulosa cells in the ovary, and in discrete brain areas. Its loss-of-function leads to a significant reduction in female fecundity. High-resolution 3D imaging of whole ovaries revealed that
mir-187
mutants accumulate early stage I follicles and show reduced progression to later stages, indicating a defect in early follicle recruitment and growth. Transcriptomic profiling of mutant ovaries revealed extensive gene-expression remodeling, including downregulation of key regulators of steroidogenesis, Wnt/β-catenin signaling, and TGF-β pathways, and upregulation of genes associated with early follicle activation and immature somatic cell states. Using an expression-based target-prediction pipeline, we identified several putative miR-187-3p targets, including
nr6a1a
(
gcnf
) and
dpagt1
, two genes previously implicated in oocyte differentiation and female fertility in mammals. Together, our results demonstrate that miR-187 acts as a previously unrecognized regulator of early folliculogenesis and female reproductive capacity in medaka, expanding the repertoire of miRNAs with essential
in vivo
roles in teleost oogenesis and female fecundity.
AUTHOR SUMMARY
Successful fish reproduction depends on the continuous production of oocytes within the ovary. This process depends on the coordinated development of germ cells and the supporting somatic cells. Although microRNAs (miRNAs) are known to post-transcriptionally regulate gene expression, their physiological roles in the fish ovary and female reproduction remain poorly understood. In this study, we used the medaka to investigate the function of miR-187, a miRNA strongly enriched in the ovary. By generating a CRISPR/Cas9 knockout line, we showed that females lacking miR-187 produce fewer eggs and display defects in early follicle development. Using whole-ovary 3D imaging, we found that mutant females accumulate early follicles that fail to progress through normal growth stages. Transcriptomic analyses revealed broad gene-expression changes affecting pathways involved in follicle activation, somatic cell maturation, and ovarian signaling. Our results demonstrate that miR-187 is a previously unrecognized regulator of early folliculogenesis and female fecundity in medaka. This work expands the landscape of miRNA-mediated regulation in the ovary and highlights the importance of post-transcriptional mechanisms in controlling reproductive success in teleosts.
Grant support
The DYNAMO project (French National Research Agency, ANR-18-CE20-0004).
The OVOPAUSE project (French National Research Agency, ANR-22-CE45-00017-02).
The IMMO project (INRAE Metaprogramme DIGIT-BIO).
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