Abstract

The objectives of the present study were to develop an antibody probe to the porcine estrogen-dependent oviductal glycoproteins and to determine, by use of immunogold electron microscopy, whether these glycoproteins become associated with oviductal and uterine oocytes and early embryos. Polyclonal antibody, prepared using the M(r) 75,000-85,000 glycoprotein, separated from other proteins by two-dimensional SDS-PAGE, specifically recognized all three estrogen-dependent glycoproteins (acidic 75,000-85,000 M(r); acidic 100,000 M(r); basic 100,000 M(r)). In ampullary tissue collected from ovariectomized and estrogen-treated gilts and from gilts at Day 1 of estrus, gold particles were clustered over putative secretory granules restricted to the apical region of secretory epithelial cells. While follicular oocytes did not react with immunoreactive colloidal gold, oviductal and uterine unfertilized oocytes were found to be densely and uniformly labeled by colloidal gold throughout the zona pellucida, associated with flocculent material in the perivitelline space, and associated with microvilli and vitelline membrane. Similarly, in oviductal (1-4-cell) and unhatched uterine (4-cell/blastocyst) embryos, colloidal gold particles were distributed throughout the zona pellucida, heavily associated with flocculent material in the perivitelline space, and associated with the plasma membrane of the blastomeres. Immunoreactive colloidal gold remained detectable within Day 7 hatched uterine embryos, but not with embryos from later days. These results further support the proposal that porcine estrogen-dependent oviductal glycoproteins are released into the oviductal lumen, become associated with oviductal and uterine oocytes and early embryos, and are retained by oocytes and early embryos in the uterus.