The Synthesis and Localization of Envelope Glycoproteins in Oocytes of Xenopus laevis using Immunocytochemical Methods. (egg envelope/Xenopus/oogenesis/glycoprotein/immunocytochemistry)

Abstract

The site of origin and the mode of differentiation of the coelomic envelope (CE) in growing oocytes of Xenopus laevis were studied using the rabbit antiserum raised against the isolated envelope from oviposited eggs. The antiserum preabsorbed with egg extracts reacted with most components of CE glycoproteins detectable by SDS-PAGE, and stained specifically the CE of full-grown (st. VI) oocytes using indirect immunofluorescence methods. Transmission electron microscopy employing IgG-conjugated colloidal gold demonstrated that the CE antigens were distributed throughout the whole cytoplasm of st. I oocytes, and began to be deposited around the oocyte surface at late st. I. During st. II to VI the density of CE antigens in the oocyte cytoplasm decreased markedly, while the deposition of extracellular CE antigens increased gradually in association with the formation of a fibrillar network. The CE antigens were observed in and around the highly extended oocyte microvilli during st. II to IV, but were never found in follicle cells at any stages of oocyte growth. On western blot analyses, the extracellular CE components appeared first at st. II, and increased both in amount and number of bands during st. III - V to attain a typical electrophoretic profiles of well-developed CE. The cytosols of growing oocytes, however, possessed several antigenic components which were distinct from those of extracellular CE, suggesting the occurrence of intracellular precursor molecules for CE. The CEs of st. IV oocytes defolliculated and cultured in [³H] leucine contained certain CE components that expressed the radiolabel on fluorography. These results indicate that in Xenopus laevis the oocyte is directly involved in the synthesis and assembly, as well as secretion of CE with least contribution by the follicle cells.