Structural and functional changes linked to, and factors promoting, cytoplasmic maturation in mammalian oocytes.

In most mammals, oocyte maturation is the final process of oogenesis, from the prophase of the first meiosis (germinal vesicle stage) to the metaphase of the second meiosis (MII), during which the oocyte acquires fertilizable competence as well as post-fertilization development competence. The nuclear and cytoplasmic maturation processes occur in synchrony but independently. Cytoplasmic maturation entails biochemical and structural changes in the cytoplasm, which give rise to oocytes capable of being fertilized and developing into embryos. Herein we review the literature and results from our own experiments on the structural and molecular events regulating cytoplasmic maturation in oocytes, concentrating on (1) the appropriate reorganization of active mitochondria and the endoplasmic reticulum, a structural and functional feature of cytoplasmic maturation, and (2) factors involved in regulatory mechanisms such as cumulus cell-oocyte gap junctional signaling, cumulus cell-oocyte bidirectional paracrine signaling, and the complex interactions of these signaling processes and follicular fluid constituents in the follicle environment.