Previous studies have shown that the Xenopus laevis egg envelope exists in three forms with differing ultrastructural, macromolecular, and sperm penetrability properties. The coelomic envelope (CE) is derived from eggs released from the ovary into the body cavity of the female, the vitelline envelope (VE) from eggs which have passed through the oviduct, and the fertilization envelope (FE) from fertilized eggs. In the present study, the physicochemical characteristics of these three envelope types were differentiated. Investigation of envelope solubility, deformability, sulfhydryl reactivity, and hydrophobic dye and ferritin binding capacity demonstrated that profound physicochemical changes occur in envelope conversions CE----VE----FE. The physical strength of the envelopes, as evidenced by deformability studies, ranked FE greater than CE greater than VE. These differences were not accountable by differences in the number of disulfide bonds, although the CE sulfhydryl groups were significantly less accessible than those in the VE or FE. All three envelope forms were hydrophilic in nature, exhibiting little ability to bind 1-anilino-8-naphthalenesulfonic acid. The CE bound greater amounts of ferritin in comparison to the VE and FE, indicating the presence of a basic domain, presumably in the 43-kDa glycoprotein, which is lost upon proteolysis to 41 kDa during the CE----VE conversion. The envelope integrity of all three forms was maintained by both noncovalent and covalent (disulfide) bonds. Measurements of the effect of pH on envelope solubilization indicated the involvement of an ionizable group with pKa of 8.0 in maintaining envelope structure.
Amniotic fluid (AmF) contains low levels of IgA of fetal origin. Western blot analysis revealed that the major forms of IgA in human AmF contain secretory component (SC), but ranged in size between 170 and 200 kDa, unlike the 380-kDa size typical of previously described secretory (s)IgA. Preliminary characterization of these novel forms of sIgA suggests they may arise by reduction of selected disulfide bonds, rather than proteolytic cleavage, of 380-kDa sIgA. This study also shows that AmF contains SC in its free form. Free SC measured by ELISA in 30 AmF samples increased with gestational age of the fetus from 26 to 40 wk postconception. Late in gestation, the concentrations of free SC levels reached those of other external secretions. Both the fetal urogenital system and the amniotic membrane appear to contribute to both the free SC and sIgA in AmF. This report presents the initial description of a new form of sIgA and provides evidence that the AmF may be an early expression of the mucosal immune system in the developing fetus.
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