Abstract
ObjectivesLittle is known about the roles of integral membrane proteins beyond channels, carriers or receptors in meiotic oocytes. The transmembrane protein Fam70A was previously identified as a likely “female fertility factor” in Fox3a‐knockout mouse ovaries where almost all follicles underwent synchronous activation and the mice became infertile very early. However, whether Fam70A functions in oocyte meiosis remains unknown. Therefore, the present study aimed to address this question.Materials and MethodsCo‐immunoprecipitation, immunogold labelling‐electron microscopy, co‐localization and yeast two‐hybrid assays were used to verify the interaction. Antibody or small interfering RNA transfection was used to deplete the proteins. Immunofluorescence, immunohistochemistry and live tracker staining were used to examine the localization or characterize phenotypes. Western blot was used to examine the protein level.ResultsFam70A was enriched in oocyte membranes important for normal meiosis. Fam70A depletion remarkably disrupted spindle assembly, chromosome congression and first polar body extrusion, which subsequently increased aneuploidy and abnormal fertilization. Moreover, Fam70A directly bound Wnt5a, the most abundant Wnt member within oocytes. Depletion of either Fam70A or Wnt5a remarkably increased adenomatous polyposis coli (APC), which stabilizes active β‐catenin and microtubules. Consequently, depletion of either Fam70A or Wnt5a remarkably increased p‐β‐catenin (inactive form) and acetylated tubulin, while APC knockdown remarkably decreased these two. Furthermore, Fam70A depletion remarkably reduced Akt phosphorylation.ConclusionsFam70A regulates meiosis and quality of mouse oocytes through both canonical and non‐canonical Wnt5a signalling pathways.
Highlights
Compared with somatic cells, meiotic oocytes are unique in several aspects
The present study revealed that family with sequence similarity 70 (Fam70A) directly bound an oocyte-predominant Wnt family member, wingless-type MMTV integration site family (Wnt5a), to regulate oocyte meiosis through the canonical Wnt-β-catenin pathway, which is a highly conserved signalling pathway important in a number of physiological processes, including early embryonic development, organ formation and tissue regeneration.[8,9,10]
Immunogold-electron microscopy showed that Fam70A and Wnt5a were located to each other (
Summary
In addition to differences in cell division (meiosis vs mitosis), various maternal proteins exist in other tissues at low level whereas are uniquely or predominantly expressed and function within oocytes. A transcriptome-wide screening in Fox3a-knockout mouse ovaries identified 348 likely "female fertility factors," among which 13 are integral membrane proteins.[7] Fox3a is a well-known transcription factor downstream of the mTOR pathway, and it represses the expression of genes required for follicle activation and development. The present study revealed that Fam70A directly bound an oocyte-predominant Wnt family member, Wnt5a, to regulate oocyte meiosis through the canonical Wnt-β-catenin pathway, which is a highly conserved signalling pathway important in a number of physiological processes, including early embryonic development, organ formation and tissue regeneration.[8,9,10] Fam[70] was shown to regulate the activity of Akt, a well-known meiosis regulator.[11,12,13]
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