Elevated intracellular pH appears in aged oocytes and causes oocyte aneuploidy associated with the loss of cohesion in mice

Increases in the aneuploidy rate caused by the deterioration of cohesion with increasing maternal age have been well documented. However, the molecular mechanism for the loss of cohesion in aged oocytes remains unknown. In this study, we found that intracellular pH (pH_i) was elevated in aged oocytes, which might disturb the structure of the cohesin ring to induce aneuploidy. We observed for the first time that full-grown germinal vesicle (GV) oocytes displayed an increase in pH_i with advancing age in CD1 mice. Furthermore, during the in vitro oocyte maturation process, the pH_i was maintained at a high level, up to ∼7.6, in 12-month-old mice. Normal pH_i is necessary to maintain protein localization and function. Thus, we put forward a hypothesis that the elevated oocyte pH_i might be related to the loss of cohesion and the increased aneuploidy in aged mice. Through the in vitro alkalinization treatment of young oocytes, we observed that the increased pH_i caused an increase in the aneuploidy rate and the sister inter-kinetochore (iKT) distance associated with the strength of cohesion and caused a decline in the cohesin subunit SMC3 protein level. Young oocytes with elevated pH_i exhibited substantially the increase in chromosome misalignment.