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Regulation of oocyte maturation in the mouse: possible roles of intercellular communication, cAMP, and testosterone
Authors:R M Schultz  R R Montgomery  P F Ward-Bailey  J J Eppig
Affiliation:1. Department of Biology, University of Pennsylvania, Philadelphia, Pennsylvania 19104 USA;2. The Jackson Laboratory, Bar Harbor, Maine 04609 USA
Abstract:Experiments were performed to determine if elevation of cumulus cell cAMP results in an increase in mouse oocyte cAMP while the heterologous gap junctions were intact. Both follicle-stimulating hormone (FSH) and cholera toxin induced a marked increase (>20-fold) in intracellular cAMP in isolated mouse cumulus cell-oocyte complexes in the presence of 3-isobutyl-1-methyl xanthine (IBMX). Concomitantly, both FSH and cholera toxin transiently inhibited resumption of meiosis of cumulus cell-enclosed but not denuded oocytes. The transient nature of the inhibitory effect produced by either FSH or cholera toxin was correlated with the cAMP level in the cumulus cell-oocyte complex. The inhibitory effect, however, was apparently not due to movement of cumulus cell cAMP to the oocyte via the functional heterologous gap junctions between cumulus cells and the oocyte. Radioimmunoassay of cAMP in oocytes free of attached cumulus cells or cumulus cell-enclosed oocytes exposed to either FSH or cholera toxin revealed that both groups of oocytes contained similar amounts of cAMP (about 0.14 fmole/oocyte). Metabolic labeling of cumulus cell-oocyte complexes with [3H]adenosine followed by incubation with either FSH or cholera toxin resulted in a marked increase in the amount of radiolabeled cAMP compared to that in unstimulated complexes. However, similar amounts of radiolabeled cAMP were found in oocytes derived from either stimulated or unstimulated complexes. Thus, we have not detected, using two methods of assay, that increasing the cAMP content of the cumulus cells results in any increase in the cAMP content of the oocyte. The apparent compartmentalization of cumulus cell cAMP elevated in response to either FSH or cholera toxin was not due to disruption of intercellular communication between the two cell types during the incubation; metabolic cooperativity was present between the two cell types and molecules of similar molecular weight and charge relative to that of cAMP were rapidly equilibrated between the two cell types. Testosterone potentiated the FSH/cholera toxin-induced transient inhibition of maturation of cumulus cell-enclosed oocytes. However, testosterone did not increase cAMP accumulation produced by either FSH or cholera toxin, decrease the rate of cAMP degradation, or promote movement of cumulus cell cAMP to the oocyte. Since cAMP elevated in response to FSH or cholera toxin appeared to be compartmentalized to cumulus cells and since neither FSH, cholera toxin, nor testosterone inhibited resumption of meiosis in denuded oocytes, it appears that the inhibitory effect promoted by FSH or cholera toxin is directly mediated by an agent other than cAMP, although cAMP generation is required for its action and that cumulus cells mediate the inhibition. These results are discussed in terms of a possible role of cAMP and steroids in regulating maturation in the mouse.
Keywords:To whom reprint requests may be addressed.
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