The Cumulus Cell-Secreted Factor Neuregulin 1 Maintains the Cumulus Cell Function in Ovulated COCs To Enhance Fertilization and Developmental Competence in Porcine Oocytes.

Abstract

It has been known that cumulus cells support oocyte meiotic and cytoplasmic maturation. Our previous study showed that the EGF like factors (amphiregulin, epiregulin and betacellulin) are expressed in granulosa cells and cumulus cells and act on cumulus cells to induce cumulus cell-oocyte complex (COC) expansion and oocyte maturation in mice and in pigs. Additionally, when ovulated mouse COCs were cultured with amphiregulin, this factor activated/phosphorylated the EGF receptor (ErbB1) and maintained cumulus expansion and the expression of specific genes when expression of endogenous amphiregulin is decreased markedly. Moreover, we have shown recently that the maintenance of the COC matrix and the secretion of specific chemokines from cumulus cells enhance successful fertilization via supporting sperm motility and induction of sperm capacitation. These data suggested that additional ligand members for the ErbB family are required to act to maintain cumulus cell function after ovulation. However, there is little information about what mechanisms regulate cumulus cells in oviductal COCs. Therefore, this study was designed to determine the kinetic expression patterns of ErbB family and the ligand in cumulus cells in vivo and in vitro, and then activate the ErbB signaling pathway to stimulate oocyte maturation in COCs in culture. For this, intact follicles and cumulus cells were collected at early, antral and ovulatory stages of follicle, or from COCs in the oviduct at specific time intervals following eCG and hCG treatment of gilts. FSH/eCG increased levels of EGF receptor and ErbB3 protein in cumulus cells, whereas ErbB2 remained constant and ErbB4 was down regulated. Immuno-histochemistry localized ErbB3 to cumulus cells after eCG and hCG stimulation. Because we found high expression of neuregulin 1 (Nrg1) mRNA in cumulus cells from our rat COC micro-array database, and because RT-PCR analyses showed that Nrg1 expression in cumulus cells of porcine COCs was increased after hCG stimulation and reached maximum levels after ovulation, we sought to determine if NGR1 might regulate cumulus cell functions via ErbB3. When porcine COCs were cultured in vitro with FSH alone, the expression of Nrg1 in cumulus cells did not increase. Therefore, to determine if NRG1 might enhance the actions of FSH, NRG1 was added to FSH-containing medium at 24 hr of culture and COC expansion and oocyte maturation were analyzed after an additional 20-hr culture (total 44 hr culture period). The addition of NRG1 strongly induced the phosphorylation of ErbB3 but not ErbB1, which resulted in the activation of both ERK1/2 and PI 3-kinase-PKB pathways in cumulus cells. The COCs exhibited improved cumulus cell survival (no apoptosis) and sustained expansion. The developmental competence of fertilized oocytes to the blastocyst stage was also enhanced by NGR1. From these results, we show for the first time that NRG1 is a novel COC secreted EGF-like factor that acts via autocrine mechanisms to activate ErbB3 expressed on cumulus cells within COCs after ovulation, and thereby helps maintain cumulus cell function to improve oocyte developmental competence, maybe due to suppress oocyte aging. Supported in part by JSPS-18688016 (MS). (poster)