Localization of oviductal glycoproteins within the zona pellucida and perivitelline space of ovulated ova and early embryos in baboons (Papio anubis).

The estrogen-dominated baboon oviductal epithelium synthesizes and secretes a family of oviduct-specific glycoproteins. The objective of this study was to determine if these glycoproteins become associated with ova and early embryos. Ovarian and oviductal eggs obtained from superovulated baboons 72 h post-hCG were subjected to an indirect immunofluorescent assay that used a polyclonal antibody prepared toward the baboon oviduct-specific glycoproteins. Oviductal ova as well as 2-cell and 4-cell embryos showed intense, specific fluorescence within their zonae pellucidae. Ovarian ova did not exhibit fluorescence. Oviductal eggs were also fixed and processed for peroxidase-antiperoxidase immunocytochemistry and colloidal gold immunoelectron microscopy to confirm the immunofluorescent data and to determine the subcellular distribution of the antigens. Oviductal ova as well as 2-cell and 3-cell embryos exhibited immunolabeling localized within the zona. Gold particles were distributed uniformly throughout the width of the zona. Occasional groupings of gold particles were observed within the zona. Also, in most eggs, immunoreactivity was observed associated with flocculent material in the perivitelline space as well as the vitelline membrane. Furthermore, immunogold labeling above background level was noted in the cytoplasm of the eggs, particularly in the blastomeres of 3-cell embryos. Collectively, these results indicate that baboon estrogen-dependent oviductal secretory glycoproteins become intimately associated with oviductal ova and with embryos.

Pulcherosine, a novel tyrosine-derived, trivalent cross-linking amino acid from the fertilization envelope of sea urchin embryo.

The normally hardened and aminotriazole-induced soft fertilization envelopes (FEs) of the sea urchin Hemicentrotus pulcherrimus and two other species were isolated and investigated for component proteins and cross-linking amino acids. From the acid hydrolysate of the hard FE of H. pulcherrimus, we isolated by reversed-phase high-performance liquid chromatography a novel fluorescent compound as well as dityrosine and trityrosine, the major tyrosine-derived cross-linking amino acids. These three compounds were also isolated from the reaction products of the tyrosine/horseradish peroxidase/H2O2 system. The structure of the novel compound, designated "pulcherosine", was determined to be 5-[4"-(2-carboxy-2-aminoethyl)phenoxy]-3,3'-dityrosine. With respect to the position of diphenyl ether bond between the tyrosine and dityrosine moieties, it is an isomer of isotrityrosine found in Ascaris cuticle collagen [Fujimoto et al. (1981) Biochem. Biophys. Res. Commun. 99, 637-643]. Isotrityrosine was not found in either of the above systems as a major component. The contents of tyrosine, dityrosine, trityrosine, and pulcherosine in the hard FE of H. pulcherrimus were estimated as 255, 5.5, 2.1, and 1.3 residues, respectively, per 10,000 total amino acid residues, while in the soft FE, those of tyrosine and dityrosine were 305 and 0.25 residues, respectively, and trityrosine and pulcherosine were only traces. The molar ratio of dityrosine, trityrosine, and pulcherosine in the hard FE was 100:38:24, while that for tyrosine/horseradish peroxidase/H2O2 reaction products was 100:3:8, respectively.

Bacterial action of fertilization envelope extract from eggs of the fish Cyprinus carpio and Plecoglossus altivelis.

The vitelline envelope (VE) and fertilization envelope (FE) in eggs of the fish Cyprinus carpio and Plecoglossus altivelis were purified by homogenization of eggs or embryos in 5 mM Tris-HCl buffer, pH 7.0, containing 2 mM ethylenediamine tetraacetic acid disodium salt (EDTA), except for processing of VEs in Plecoglossus eggs, and by repeated washing wih the same buffer. To extract the outermost layer material, the purified VEs and FEs were processed overnight at 4 degrees C in 5 mM Tris-HCl buffer, pH 7.0, containing 8 mM 2-mercaptoethanol, 2 mM EDTA, 0.3 M alpha-lactose, 0.3 M glucose, and 0.9% NaCl. Since extraction of the outermost layer of the VEs of Cyprinus eggs in this solution was found to be ultrastructurally incomplete, further sonication in the same buffer was necessary. The solution extracted from purified VEs or FEs was dialyzed against 5 mM Tris-HCl buffer, pH 7.0, followed by lyophilization. The extracts from the FEs from both fish species contained two kinds of lectins, one agglutinated human B-type erythrocytes and the other nonspecifically agglutinated fish spermatozoa, and both extracts had a strong bactericidal effect on Vibrio anguillarum that was isolated from diseased cultured fish, but not on Aeromonas hydrophila and Escherichia coli. The extracts of purified VEs from eggs of both fish had no bactericidal effect on the bacteria examined, nor any agglutination effect on human erythrocytes and fish spermatozoa.

Changes in the protein components of vitelline envelope during oogenesis of a tubiculous polychaete, Schizobranchia insignis.

In sabellid polychaetes the vitelline envelopes, in which microvilli with glycocalyx structures at the tips are invested, change in structure during oogenesis. Vitelline envelopes isolated from Schizobranchia oocytes 25-100 micron and 160-185 micron in diameter, were analyzed in protein components by iodination, electrophoresis, Western blotting and radioactive labeling technique. The observations demonstrate that the membrane proteins of the vitelline envelopes are not consistent but variable in components during oogenesis. Most of these proteins, particularly the high molecular weight proteins, are PAS-positive glycoproteins, which may have specific carbohydrate residues binding to wheat germ agglutinin. The proteins could be labeled with [3H]valine within 36 h by incubating the whole oocytes in sea water to a high level, indicating that the proteins are actively synthesized by the growing oocytes. Synthetic rates of the proteins differ from each other at one stage and are higher in the small than in the large oocytes in general, suggesting that the membrane proteins are involved in the function of the vitelline envelopes during oogenesis.

KDN-glycoprotein: a novel deaminated neuraminic acid-rich glycoprotein isolated from vitelline envelope of rainbow trout eggs.

A new acidic glycoprotein containing deaminated neuraminic acid (KDN = 3-deoxy-D-glycero-D-galacto-nonulosonic acid; greater than 50%, w/w) was isolated from vitelline envelope of the unfertilized eggs of rainbow trout (Salmo gairdneri). This glycoprotein is designated as "KDN-glycoprotein" because it contains only KDN but no sialic acid as the acidic carbohydrate moieties. Other major carbohydrate components of KDN-glycoprotein were Gal and GalNAc. Thr and Ala accounted for 71% (mol/mol) of amino acid composition. A possible occurrence of KDN-KDN linkages, i.e. oligoKDN groups has been suggested in the carbohydrate chains presumably linked O-glycosidically to the core protein.

Presclerotized eggshell protein from the liver fluke Fasciola hepatica.

Trematode parasites protect their eggs with a tough tanned eggshell. Eggshell precursor proteins are synthesized and stockpiled within the extensive vitellaria of the animal. A major eggshell precursor protein with an apparent molecular weight of 31,000 and pI of 7.4 was isolated from the vitellaria of Fasciola hepatica. This protein, which represents 6-7% of the total protein in mature Fasciola, is unique in containing rather high levels of the amino acid 3,4-dihydroxyphenylalanine (DOPA), i.e., 110 residues per 1000. Other prominent amino acids are glycine, aspartic acid, and lysine. A prominent DOPA-containing tryptic peptide derived from eggshell precursor protein has the sequence Gly-Gly-Gly-DOPA-Gly-Gly-DOPA-Gly-Lys. DOPA residues disappear during the maturation of the eggshell and by treatment in vitro with mushroom polyphenol oxidase. This disappearance may be related to the formation of cross-links in the eggshell protein.

Intermolecular cross-linking of vitelline envelope polypeptides predominates in the hardened sea urchin fertilization envelope.

At fertilization, the sea urchin egg vitelline envelope (VE) elevates, and a subset of released cortical granule proteins, paracrystalline protein fraction (PCF), associates with the VE to form the fertilization envelope (FE). Cortical granule peroxidase cross-links FE polypeptides by phenolic coupling of tyrosyl residues. We have used an immunological approach to determine which polypeptides are linked together in the hardened FE of Strongylocentrotus purpuratus. Soluble polypeptides were extracted from hardened FEs, and antibodies were prepared in rabbits against the insoluble envelope matrix (FE ghost). Whole immune serum and purified IgGs each reacted with FE ghosts when using an enzyme-linked immunosorbent assay. VEs isolated by means of three published procedures cross-reacted with the immune serum and purified IgGs. Soluble FE polypeptides also cross-reacted with whole immune serum and IgGs owing to the presence of VE polypeptides. Hyalin, a protein not found in FEs, and PCF did not cross-react with antiserum against FE ghosts. To determine which VE polypeptides were cross-linked in the hardened FE, VE polypeptides were immunoblotted by using antiserum against FE ghosts. Most of the VE polypeptides that ranged from 68,000 to 283,000 molecular weight cross-reacted with the antibody.

Isolation, characterization and localization of a lectin within the vitelline membrane of the hen's egg.

A lectin with an affinity for certain sulphated polysaccharides, such as fucoidin and dextran sulphate, has been isolated from the vitelline membrane of hens' eggs and purified to homogeneity as assessed by two-dimensional gel electrophoresis. Polyclonal and monoclonal antibodies have been raised to the lectin and used in indirect immunofluorescence microscopy to localize the agglutinin in the outer layer of the vitelline membrane, where the lectin persists prior to the breakdown of the vitelline membrane. The quantity of lectin extracted from the two layers of the membrane, which have been separated by the method of Bellairs, Harkness & Harkness (1963), correlated well with the results of immunofluorescence microscopy. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis of the two layers of the membrane indicates that each layer has a distinctive polypeptide composition, the outer layer containing in particular lysozyme and avidin. The evidence obtained in this study indicates that the lectin is not involved in adhesion of the blastoderm to the vitelline membrane; neither is it involved in the expression of the blastoderm nor in maintaining the strength of the membrane. The possible roles in promoting transport of solutes across the membrane as well as providing bactericidal properties to the egg are discussed.

Proteins of the sea urchin egg vitelline layer.

The vitelline layers (VL) of unfertilized sea urchin eggs were isolated, and the diversity of their polypeptide constitutents estimated by two-dimensional polyacrylamide gel electrophoresis. At least 25 components are reproducibly observed. While VL polypeptides are almost certainly synthesized in the growing oocyte, they are not among the more prevalent newly synthesized proteins detected in oocytes that were isolated and labeled in vitro for 4 hr. A set of monoclonal antibodies was raised against VL components and partially characterized. The 31 monoclonals analyzed fell into 11 classes with respect to their avidity for VL proteins solubilized under mild and under strongly denaturing conditions, and to their reactions with surface components of the VLs of living eggs. Fluorescence microscopy showed diverse patterns of surface reactivity when different monoclonal antibodies were compared. Two of the monoclonal antibodies reacted with specific sets of three proteins each on VL protein blots. It is concluded that the VL is a complex structure containing a large number of different polypeptide components, the genes for several of which should now be experimentally accessible.

Radioiodination studies of the envelopes from Xenopus laevis eggs.

To investigate the molecular basis of the observed morphological and biological characteristics of coelomic egg envelopes (CE), vitelline envelopes (VE), and fertilization envelopes (FE) of Xenopus laevis eggs, envelopes were radioiodinated under a variety of conditions: in situ, isolated and intact, or solubilized. The distribution of 125I in envelope components was analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Each envelope type displayed unique profiles when iodinated in the intact state. A major constituent of VE, the 41,500 molecular weight component, was not labeled in the intact state, although the corresponding component of CE was heavily labeled. After dissociation of the envelope by guanidine-HCl or sodium dodecyl sulfate, all of the components could be radioiodinated. However, when the envelopes (VE and FE) were dissolved by heating and subsequently radioiodinated by lactoperoxidase, the resulting radioactivity profile was similar to that of the intact envelopes, suggesting that in the heat-dissolved envelope, the individual components retain similar structural relations as in the intact envelope. Quantitative but not qualitative differences were found between the inner and outer aspects of VE and FE. The significance of these findings is discussed in relation to what is known about the morphological, biological, and molecular properties of the envelopes.

Proteins of the outer layer of the vitelline membrane of hen's eggs.

A study has been made of the proteins in the vitelline membrane of hen's eggs before and after mechanical separation into the inner and outer layers. The membranes were dissolved in detergent (sodium dodecyl sulphate) and chromatographic fractions were examined by gel electrophoresis. The separated inner and outer layers were compared by gel electrophoresis. The outer layer contained (i) enzymically active lysozyme (EC 3.2.1.17) (about 60% dry weight), (ii) an insoluble ovomucin complex and (iii) a new protein, VMOI (vitelline membrane outer I). These account for most of the protein. In addition, some minor constituents were detected by gel electrophoresis but were not isolated. Except for ovomucin, the constituents of the outer layer could be dissolved from the membrane at high ionic strength (greater than 0.5 M sodium chloride), resulting in a loss of its structure. On lowering the ionic strength the soluble proteins recombined with the membrane, partially regenerating the original structure. Ovomucin appears to form the skeleton of the outer layer, but the salt-soluble proteins, especially lysozyme, are responsible for its integrity. The function of the newly-recognized protein (VMOI) is not known. Its molecular weight is 17,500 according to gel electrophoresis in detergent and it contains no methionine. The inner layer consists largely of the proteins GPI, GPII and GPIII isolated by Kido et al. (Kido, S., Janado, M. and Nunoura, H. (1975) J. Biochem. 78, 261-268) from the whole membrane.

Morphologic alterations in the parietal yolk-sac of the rat from the 12th to the 19th day of gestation.

The rat parietal yolk-sac and its adherent epithelial cells were examined at various stages of gestation using an en face technique. Specimens were observed a both the light and electron microscopic level. Diastase pretreatment and PAS-staining were used to determine the presence of glycogen. As early as the 12th day of gestation the cytoplasm of the parietal yolk-sac cells contained numerous ribosomes and mitochondria and a large amount of endoplasmic reticulum. The glycogen content of the epithelial cells increased from the 12th day of gestation and accumulated in large quantities by the 16th day. By the 17th day many cells exhibited variable degrees of degeneration. Cellular elements of degenerating cells appeared to be trapped within Reichert's membrane. Contrary to the reports of other investigators, the present study indicates that the capsular portion of the parietal yolk-sac consisting of Reichert's membrane and its adherent epithelial cells remained intact until at least the 18th day of gestation. Some of the unique characteristics of the parietal yolk-sac provide experimental models to study the effects of environmental factors on (1) the synthesis of basement membranes, (2) the ageing of cells and (3) the correlation of these histologic changes with the functions of the parietal yolk-sac.

Macromolecular components of the vitelline membrane of hen's egg. III. Physicochemical properties of glycoprotein II.

A glycoprotein fraction (GP-II) has been isolated from the vitelline membrane of hen's egg and its physicochemical properties clarified. GP-II is composed of polypeptide (92%), neutral sugar (4%), hexosamine (3.3%), and sialic acid (0.6%). The constituent neutral sugars of this glycoprotein are fucose, mannose, and galactose, in a molar ratio of 2:6:5. An interesting feature of the amino acid composition of GP-II is the high proportion of proline. GP-II exists in an aggregated form and is hydrophobic in nature. Upon velocity sedimentation in 0.5% SDS solution, it showed a hypersharp boundary with an apparent sedimentation coefficient of 5.6 S. Reduction of GP-II, however, gave a single component of 3.6 S which seems to be a subunit of GP-II.

An immunofluorescent study of alpha-fetoprotein. I. Its ontogenic development in human conceptus.

A development of alpha-fetoprotein-producing tissues was investigated in 52 cases of human conceptuses ranging from 2 to 7 months in gestation by a fluorescent antibody technique. It is synthesized in endodermal cells of the yolk sac, hepatocytes including the cells of large bile canaliculi, and some gland epithelial cells of the stomach, while its accumulation also occurs in mesenchymal cells of the yolk sac and Kupffer cells of the liver. A mode of its localization in individual tissues was described and possible explanation on the origin of its producers was discussed.

The abundance of ferritin in yolk-sac derived red blood cells of the embryonic mouse.

Circulating red blood cells formed early in development have several distinctive properties which include retention of the nucleus (mammals), large size and characteristic haemoglobin type (mammals, birds, amphibia). The primitive or embryonic red cells of early development are replaced by the definitive red cells which contain fetal or adult haemoglobin; a second developmental change occurs in the haemoglobin of some mammals (man, cattle, sheep) but does not involve a cell replacement. Circulating yolk-sac derived red cells from embryonic mice are siderocytes; elevated ferritin levels are associated with the circulating red cells of bullfrog tadpoles, but not with those of the adult frog, again indicating that red cell iron metabolism can change during development. In order to extend the observations made on an amphibian to a mammal, the ferritin content of circulating red cells from embryonic mice was determined and found to be 0.65 mg/100 mg of soluble protein; no ferritin (less than or equal to 0.007 mg/100 mg of soluble protein) was detected in adult mouse red cells. Elevated ferritin levels appeared to be specifically associated with the yolk-sac derived population of red cells since a decline in red-cell ferritin content coincided with the replacement of yolk-sac derived red cells by definitive red cells derived from the liver. Fractionation of mixtures of yolk-sac derived and liver derived red cells showed that fractions rich in the definitive red cells contained less ferritin than the mixture. The results suggest that elevated ferritin levels may be a general characteristic of the circulating, haemoglobinized red cells formed early in development.