This study was carried out to compare the possible role of a secreted
paracrine factor versus that of a gap-junction-transmitted signal in
mediating meiotic induction in isolated mouse oocytes from PMSG-primed,
immature mice. In the first set of experiments, oocyte-cumulus cell
complexes (OCC) were pretreated for 3 h with 2 mM dbcAMP or FSH, washed,
and the oocytes then cultured for 17-18 h in 40 μl drops containing
either 300 μM dbcAMP or 4 mM hypoxanthine (HX). Each set of pretreated
oocytes was cultured under three different conditions: (1) intact
cumulus-cell-enclosed oocytes (CEO); (2) denuded oocytes (DO), cultured
alone after removal of cumulus cells; and (3) co-cultured cumulus cells and
oocytes (CC/DO), where the cumulus cells were removed in the same drop with
a mouth-operated pipette and cultured alongside the oocytes. When pretreated
with high dbcAMP or FSH, maturation was stimulated in CEO when cultured in
either inhibitor (by 41.4-53.7%). Pretreatment failed to affect the
maturation rate in DO. DO maturation was not altered appreciably by co-cultured
cumulus cells when arrest was maintained with dbcAMP. However, an increase
in maturation of 21-23% was observed in CC/DO in the HX-containing cultures
that was not dependent on prior treatment with a meiosis-inducing
stimulus. When DO were co-cultured with intact, FSH-treated OCC, there was
no evidence of a positive factor secreted by the stimulated complexes,
despite the fact that oocytes within the OCC were induced to resume
maturation. In a second series of experiments the gap junction inhibitor,
18α-glycyrrhetinic acid (GA), was utilised. An initial experiment
determined that GA dose-dependently blocked OCC metabolic coupling (0.2%
coupling at 10 μM compared with 13.6% in controls). When HX-arrested CEO
and DO were cultured for 17-18 h in medium containing increasing
concentrations of GA, meiotic maturation was induced in CEO but not DO,
suggesting that the cumulus cells provided a positive stimulus in the
absence of functional gap junctional communication. No effect of GA was seen
in dbcAMP-arrested oocytes. A kinetics experiment showed that when CEO were
cultured in dbcAMP±FSH, meiotic induction was initiated after 3 h and
germinal vesicle breakdown reached 60% by 6 h. When GA was added to the
cultures at different times after the initiation of culture (0, 2, 3, 4 and
5 h), meiotic induction was immediately blocked. In addition, measurement of
OCC coupling revealed that no reduction in coupling occurred during this
induction period in the absence of GA. It is concluded that cumulus cells
can secrete a positive factor, but that this is normally overridden by
inhibitory influences transmitted through the gap junction pathway in intact
complexes. Furthermore, upon exposure of complexes to a meiosis-inducing
stimulus, a positive gap-junction-mediated signal now predominates to
trigger germinal vesicle breakdown, and this signal is utilised throughout
the induction period.