Meiotically incompetent and competent goat oocytes: Timing of nuclear events and protein phosphorylation

The ability of mammalian oocytes to resume meiosis and to complete the first meiotic division is acquired sequentially during their growth phase. The acquisition of meiotic competence in goat oocytes has been previously correlated with follicular size (9). Since protein phosphorylation/dephosphorylation play a key role in oocyte maturation, it could be that in meiotically incompetent oocytes, such post-translational modifications are inadequate. The aim of this study was to analyze whether changes in oocyte proteins phosphorylation occured during the acquisition of meiotic competence. For this propose, goat oocytes were divided into 4 classes according to follicular size and meiotic competence : Class A oocytes from follicles < 0.5 mm in diameter: Class B oocytes from follicles 0.5– 0.8 mm; Class C oocytes from follicles 1 – 1.8 mm and class D oocytes from follicles > 3 mm. The protein phosphorylation patterns of these classes of oocytes were studied at different times of in vitro maturation. After 4h of culture, when all oocytes were in the germinal vesicle stage, only the oocytes from Class D displayed the phosphoproteins at 110 kD, 31 kD and around 63 kD. In contrast to Class D oocytes Classes B and C oocytes were partially competent to mature, they underwent germinal vesicle breakdown later than fully competent Class D oocytes and remained in early prometaphase I or in metaphase I, respectively. They exhibited the phosphoprotein changes that are associated with commitment to resume meiosis; but the changes occurred later than in Class D oocytes, which were fully competent to reach metaphase II. After 27 h of culture, the phosphorylation patterns of Class B, C and D oocytes were identical, whereas the meiotic stages reached were quite different. The phosphoprotein changes associated with oocyte maturation did not occur in meiotically incompetent Class A oocytes, which were blocked at the germinal vesicle stage. From these results it can be concluded that, at the GV stage, meiotically incompetent and competent goat oocytes display different patterns of protein phosphorylation. Once oocytes are able to resume meiosis they undergo specific phosphorylation changes, but whether these changes are markers or regulators of maturation events remains to be determined.