Endocrine and paracrine regulation of meiotic cell cycle progression in teleost oocytes: cAMP at the centre of complex intra-oocyte signalling events

Abstract

Participation of major endocrine and/or local autocrine/paracrine factors and potential interplay between apparently disparate intra-oocyte signalling events during maintenance and withdrawal of meiotic prophase arrest has been an area of active research in recent years. Studies on oocyte maturation have contributed substantially in the discovery of some of the most important biochemical and cellular events like functional significance of novel membrane-associated steroid receptors, elucidation of maturation promoting factor (MPF), cytostatic factor (CSF) and other signalling cascades that entrain the cell cycle clock to hormonal stimuli. While follicular estrogen has largely been implicated in maintenance of prophase arrest, involvement of maturational steroid and membrane progestin receptor in resumption of meiotic G2–M1 transition in piscine oocytes has been shown earlier. Moreover, detection of ovarian IGF system, maturational gonadotropin stimulation of IGF ligands and potential synergism between maturational steroid and IGF1 in zebrafish oocytes are most recent advancements. Though endocrine/paracrine regulation of cyclic nucleotide-mediated signalling events in meiotic cell cycle progression is well established, involvement of PI3K/Akt signalling cascade has also been reported in fish, amphibian and mammalian oocytes. The major objective of this overview is to describe how fish oocytes maintain high cAMP/PKA activity and how steroid- and/or growth factor-mediated signalling cascade regulate this pathway for the withdrawal of meiotic arrest. Moreover, special emphasis is placed on some recent findings on interaction of PKA with some of the MPF-regulating components (e.g., synthesis of cyclin B or MEK/MAPK signalling cascade) for the maintenance of prophase arrest.