Early Embryonic Development in the Djungarian Hamster (Phodopus sungorus) is Accompanied by Alterations in the Distribution and Intensity of an Estrogen (E2)- Dependent Oviduct Glycoprotein in the Blastomere Membrane and Zona Pellucida and in its Association with F-Actin1

Abstract

The luminal environment of the estrogen (E2)-dominated mammalian oviduct generates and sustains the environment in which the first embryonic cleavages take place. The objective of this study was to determine, by use of an antiserum against an E2-dependent sheep oviduct secretory glycoprotein (M(r) 90,000-92,000), whether the E2-dominated and pregnant oviduct of the Djungarian hamster (Phodopus sungorus) releases an antigenically related protein. If the protein was present, a secondary objective was to define its fate and association with filamentous-actin (f-actin) and chromatin patterns in early cleavage-stage embryos. Oviduct flushings containing embryos (1-cell fertilized, 2-, 4-, and 8-cells), and uterine flushings (> 16 cell embryos) were obtained from pregnant hamsters. Embryos were removed from flushings, and oviduct secretions were analyzed by Western blotting. The zona pellucida was removed with acid Tyrode's solution from approximately half of the 2-, 4-, and 8-cell embryos. Zona-intact and zona-free embryos were then fixed and subjected to triple immunofluorescence staining with an antiserum to the sheep oviduct protein, rhodamine phalloidin, and Hoechst 33258. An antigenically related protein M(r) 200,000) was detected in oviduct secretions of E2-treated, ovariectomized, and pregnant hamsters, and not in secretions from ovariectomized controls. In the zona pellucida of 1- and 2-cell embryos, the oviduct protein displayed an intertwining, reticular organization that was replaced by a diffuse and more intense accumulation in 4-, 8-, and > 16-cell embryos. In 2-cell embryos, punctate foci of the oviduct protein were distributed unevenly over the apical blastomere plasma membrane, forming patches in regions of f-actin exclusion, which were absent at later development stages. At the 4- and 8-cell stage of development, as blastomeres lost their spherical form by minimizing intercellular spaces, the oviduct protein took on a polarized arrangement and was intensely concentrated on membrane areas involved in cell-cell contact that were also the focus of f-actin. These data show that in early cleavage-stage hamster embryos, the intensity and pattern of staining for an E2-dependent oviduct protein (M(r) 200,000) that is released into the oviduct lumen during embryo transport can be distinguished on the basis of membrane f-actin display and blastomere number and shape. These events may mediate cellular processes related to blastomere cleavage, shaping, and/or adhesion that occur in the oviduct.