Inhibition of (3H)vitellogenin uptake by isolated amphibian oocytes injected with cytoplasm from progesterone-treated mature oocytes.

Fully grown meiotically immature (germinal vesicle stage) amphibian oocytes incorporate radioactive protein ([³H]vitellogenin) following in vitro culture. In vitro exposure of such oocytes to exogenous progesterone induces germinal vesicle breakdown and inhibits incorporation of vitellogenin. In the present studies, we have investigated the effects of cytoplasm taken from mature and immature oocytes on incorporation of vitellogenin and nuclear breakdown following microinjection of this material into immature oocytes. Vitellogenin incorporation was markedly suppressed in oocytes which underwent nuclear breakdown following injection with cytoplasm from mature oocytes. Incorporation of vitellogenin into oocytes which did not mature after injection with cytoplasm taken from mature oocytes resembled that seen in oocytes injected with immature cytoplasm. The degree of suppression of vitellogenin incorporation following cytoplasmic injections was similar to that seen in uninjected oocytes treated with progesterone. Oocytes injected with cytoplasm obtained from immature oocytes did not undergo either nuclear breakdown or changes in vitellogenin incorporation. The results suggest that cytoplasm obtained from mature oocytes contains a factor(s) which alters directly or indirectly the capacity of the oocyte cell membrane to incorporate vitellogenin. Enucleated immature oocytes also incorporated [³H]vitellogenin, and injection of such oocytes with mature, but not immature, oocyte cytoplasm suppressed vitellogenin incorporation. Suppressive effects of injected cytoplasm thus appear to be mediated through physiological changes in the recipient oocyte cytoplasm rather than the nuclear component.