The mechanism of cumulus cell-oocyte uncoupling: evidence for the participation of both cumulus cells and oocytes.

Abstract

Cumulus cells are metabolically coupled to oocytes via heterologous gap junctions. This coupling terminates near the time of ovulation, and the termination appears to be correlated with the mucification of the cumulus cells lying immediately adjacent to the oocytes. The first objective of this project was to determine whether follicle stimulating hormone (FSH) induction of cumulus cell-oocyte uncoupling could occur independently of FSH-stimulated cumulus mucification (expansion). Intercellular coupling was measured as a percentage of radiolabeled choline (or its metabolites) that was incorporated into the oocyte relative to the total amount of radiolabel incorporated into the entire cumulus cell-oocyte complex. It was found that the complete suppression of FSH-stimulated cumulus expansion with chondroitin sulfate B had no suppressive effect on FSH-stimulated cumulus cell-oocyte uncoupling. This finding showed that FSH-stimulated cumulus expansion was not required for cumulus cell-oocyte uncoupling. Since 17β-estradiol, testosterone, or progesterone could not induce maximal cumulus cell uncoupling, it was concluded that the uncoupling-promoting action of FSH was probably not mediated by steroid hormones. A partial uncoupling of cumulus cells and oocytes was found when spontaneous oocyte maturation had occurred in the absence of FSH. This partial uncoupling was prevented by incubation of cumulus cell-oocyte complexes in concentrations of dibutyryl cyclic adenosine monophosphate (dbcAMP) or 3-isobutyl-1-methyl xanthine (IBMX) (0.25 and 0.10 mM respectively) that suppressed spontaneous oocyte maturation without inducing cumulus expansion. These inhibitors also prevented the maximal induction of uncoupling that would have been provoked by biological grade preparations of either FSH or luteinizing hormone (LH). It was concluded that two factors were required to bring about maximal cumulus cell-oocyte uncoupling: one factor was dependent upon the action of gonadotropins on cumulus cell function, the other factor appeared to be a function of the oocytes, since maximal uncoupling could occur only after the germinal vesicles had broken down.