Women carrying the fragile X premutation (55-200 CGG repeat expansion, PM) are at risk for developing fragile X-associated primary ovarian insufficiency (FXPOI), which is preceded by fragile X-associated diminished ovarian reserve (FXDOR). So far, the cause of FXDOR/FXPOI could not be comprehensively examined due to the scarcity of human ovarian tissue and oocytes. From studies in model systems, it was proposed that molecular abnormalities within the ovaries or a diminished primordial follicle pool cause FXDOR/FXPOI. To elucidate the defects instigating FXDOR/FXPOI, we examined human oocytes obtained from PM carriers undergoing fertilization (IVF). We found that the number of MII oocytes was reduced suggesting that the maturation of the oocytes is constrained in PM carriers. Furthermore, immature PM oocytes contained abnormal inclusions, irregular ubiquitin levels and DNA breaks. Despite these defects PM oocytes passed the DNA damage checkpoints. However, in anaphase I PM oocytes failed to initiate the protrusion of the first polar body. In addition, these oocytes amassed bundle actin structures, lacked an actin cap and had elevated profilin1 level. Profilin1 limits the formation of branched actin structures which are necessary for actin cap formation and membrane protrusions. Surprisingly, our results suggest that in PM oocytes an increase in FMRP elevates the profilin1 translation, which leads to the cytoskeleton defects and deficiencies in formation of the first polar body. We also analyzed the decline of MII oocytes in aging human ovaries. Similar, we found that the profilin1 expression and formation of the actin cytoskeleton were dysregulated due to appearance of cytoplasmatic FMRP foci in aged human oocytes. Thus, these results reveal that defects during anaphase I hinder the maturation of human oocytes resulting in FXDOR/FXPOI in PM carriers and a reduction in mature oocytes in women with advanced maternal age.
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| http://dx.doi.org/10.1101/2025.02.23.639319 | DOI Listing |
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