Porcine zona pellucida ZP3 alpha glycoprotein mediates binding of the biotin-labeled M(r) 55,000 family (ZP3) to boar sperm membrane vesicles.

The two M(r) 55,000 glycoproteins, ZP3 alpha and ZP3 beta, of porcine zona pellucida copurify as a preparation designated ZP3. Gamete binding assays have implicated ZP3 alpha, but not ZP3 beta, as participating in sperm-zona recognition events. We now report that boar sperm contain membrane-associated binding sites with specificity for ZP3 alpha. Biotin-labeled (b-) preparations of ZP3 bind to intact boar sperm in a saturable manner, with localization on the anterior head region. Membrane vesicles obtained from capacitated sperm by nitrogen cavitation retain b-ZP3 binding sites as determined by an enzyme-linked method employing alkaline phosphatase-conjugated strepavidin. In competitive binding assays using b-ZP3 (0.1 microgram/ml) as probe, heat-solubilized zonae and ZP3 were effective competitors, whereas the nonzona molecules fetuin and fucoidin were not. Digestion of ZP3 with endo-beta-galactosidase, an enzyme that trims polylactosamines, enhanced its affinity for membrane receptors. In contrast treatments such as chemical deglycosylation, pronase digestion, or disruption of disulfide bonds abolished the ligand activity of ZP3. Finally, purified ZP3 alpha was an at least 100-fold better antagonist than purified ZP3 beta. The results demonstrate that binding of b-ZP3 to isolated boar sperm membranes is mediated by sperm receptors with specificity for the ZP3 alpha macromolecular component and reveal a complex contribution of both carbohydrate and protein moieties toward the ligand activity of this sperm adhesive zona molecule.

Porcine oocyte zona pellucida M(r) 55,000 glycoproteins: identification of O-glycosylated domains.

The distribution of O-linked oligosaccharides on the M(r) 55,000 glycoproteins, ZP3 alpha and ZP3 beta, of the porcine oocyte zona pellucida was examined. Purified preparations of endo-beta-galactosidase digested ZP3 alpha and ZP3 beta were reduced and carboxamidomethylated and digested with trypsin. When the trypsin digests were mapped by HPLC, each glycoprotein yielded only one N-acetylgalactosamine containing glycopeptide. Purification of the O-glycopeptides was achieved by a two-step protocol. Tryptic digests were applied to jacalin-agarose and specifically-bound O-glycopeptides (alpha OGP and beta OGP) were eluted with buffer containing 50 mM alpha-methylgalactoside as the haptenic sugar. Further purification of each O-glycopeptide was accomplished by reverse phase HPLC. Purified O-glycopeptides were characterized with respect to amino acid and carbohydrate compositions and sequenced by automated Edman degradation; alpha OGP was a 41-residue glycopeptide with three O-linked sugar chains. Sequence comparisons revealed a 75% identity between alpha OGP and a corresponding segment of rabbit rec55 zona protein; beta OGP was a 25-residue glycopeptide characterized by the presence of one N-linked and five O-linked sugar chains and a trypsin-resistant internal arginine residue. Sequence alignments revealed an 80% or greater identity between beta OGP and internal peptides of mouse, hamster and human ZP3 zona proteins. These studies demonstrate that in the case of ZP3 alpha and ZP3 beta, the pig homologues of rabbit rec55 and mouse ZP3, respectively, O-linked oligosaccharides are confined within delimited domains rather than widely dispersed on the polypeptide backbone. Such clustering of O-linked oligosaccharides may represent an essential determinant of the structure and biological activity of zona proteins.

Isolation, composition, and biological activity of sugar chains of porcine oocyte zona pellucida 55K glycoproteins.

ZP3, a preparation of the 55K families of porcine oocyte zona pellucida, possesses carbohydrate-dependent ligand activity for boar sperm. The aim of the present study was to analyze ZP3 N- and O-linked oligosaccharides with respect to size distribution, composition, and role in sperm-zona recognition events. Digestion of denatured ZP3 with peptide N-glycosidase F (PNGaseF) released the majority of N-glycans which fractionated on Sephadex G-75 resin as a polydisperse population with apparent molecular masses ranging from 1,900-8,200 Da. The higher molecular weight N-glycans were characterized by the presence of strongly anionic sulfated/sialylated polylactosamine structures. Alkaline-borohydride treatment of the PNGaseF-digested core proteins liberated O-glycans as a heterogeneous population of oligosaccharide alcohols, which were fractionated on a Sephadex G-50 column. Compositional analyses indicated sulfated polylactosamine units associated with the higher molecular weight O-glycans. Preincubation of boar sperm with ZP3 or purified O-glycans, but not N-glycans, inhibited subsequent attachment to zona-encased oocytes. Purified O-glycans were, however, 2 to 3 orders of magnitude less effective than ZP3 as competitive ligands. The results document the extreme heterogeneity of the ZP3 carbohydrate moiety, in large part attributable to a broad spectrum of variably sized N- and O-linked sulfated polylactosamines. Ligand competition bioassays suggest that O-glycans mediate, at least in part, the sperm adhesive properties of ZP3 and strongly imply that high-affinity interaction of ZP3 sugar chains with complementary sperm receptors is dependent upon their covalent association with core proteins.

Maternal serum hexosaminidase A in pregnancy: effects of gestational age and fetal genotype.

The diagnostic usefulness of sulfated fluorogenic substrates in carrier detection of Tay-Sachs disease in serum during pregnancy was assessed by testing coded samples. Gradual increase in serum hexosaminidase activities toward these substrates was observed throughout pregnancy in both carrier and non-carriers of the Tay-Sachs gene, but absolute discrimination between the 2 genotypes could not be achieved even when values were compared within the same gestational age. Examination of isolated isozyme fractions with the sulfated substrates showed that the increased activities during pregnancy were due to a genuine increase in hexosaminidase A and not associated with the elevation of hexosaminidase I (or P), which was evident only with unsulfated substrates. The extent of the increase was influenced by the genotype of the fetus as indicated by higher values in pregnant carriers who carried non-carrier fetuses. We conclude that determination of serum hexosaminidase A during pregnancy by sulfated fluorogenic substrates may have a prenatal diagnostic value when used in obligate heterozygotes for Tay-Sachs disease, but is unreliable for screening purposes.

Altered molecular size of N-acetylglucosamine 1-phosphotransferase in I-cell disease and pseudo-Hurler polydystrophy.

The size of the mutant N-acetylglucosamine 1-phosphotransferase in Golgi membranes from fibroblasts of patients with I-cell disease and classical pseudo-Hurler polydystrophy, which comprised one complementation group characterized by deficiency towards both artificial and natural acceptor substrates, was significantly smaller than the normal enzyme, 151-174 kDa compared with 225-278 kDa. The size of the mutant enzyme from cell lines of patients with variant forms of pseudo-Hurler polydystrophy, which comprised another complementation group characterized by normal activity towards mono- and oligo-saccharide substrates, was significantly larger than the normal enzyme, ranging from 321 to 356 kDa in two families and from 528 to 547 kDa in a third family. These findings suggest that the mutations in I-cell disease and classical pseudo-Hurler polydystrophy result in a missing enzyme component, which renders the enzyme catalytically inefficient toward any type of acceptor substrate. In contrast, the mutations in the variant forms of pseudo-Hurler polydystrophy produce a larger enzyme molecule which is active toward small substrates but is incapable of binding natural lysosomal glycoprotein substrates.

Lysosomal enzyme activities in fresh and frozen chorionic villi and in cultured trophoblasts.

Fifteen lysosomal enzyme activities were compared in 14 presumed normal chorionic villus specimens that were each divided, processed and analyzed as fresh tissue, tissue frozen for 1 week, and cultures established from minced whole villi. Most of the activities determined in the chorionic villus tissue were not affected significantly by freezing. However, activities for most enzymes were significantly different from those determined in the cultured cells. Our experience with first trimester prenatal evaluations for several lysosomal disorders showed that the limited amount of tissue obtained is not always sufficient for thorough analysis and thus, cultured trophoblasts derived from the tissue specimen should also be examined. The results of this study stress the importance of using appropriate tissue-type and cell-type controls to establish the normal range in the respective analyses.

Molecular size of N-acetylglucosaminylphosphotransferase and alpha-N-acetylglucosaminyl phosphodiesterase as determined in situ in Golgi membranes by radiation inactivation.

The radiation inactivation method was used to determine the molecular size of the two enzymes that participate in the synthesis of the phosphomannosyl recognition marker of lysosomal proteins. The determinations were carried out in situ, in Golgi membranes isolated from normal human placenta and cultured skin fibroblasts. A molecular size of 228 +/- 29 kDa was found for placental N-acetylglucosaminyl-phosphotransferase, and 129 +/- 11 kDa for placental alpha-N-acetylglucosaminyl phosphodiesterase. The values for the fibroblast enzymes were about 20% higher, 283 +/- 27 kDa and 156 +/- 14 kDa for the transferase and phosphodiesterase respectively. Triton X-100 had no effect on the molecular size of these enzymes.

Characterization of the mutant N-acetylglucosaminylphosphotransferase in I-cell disease and pseudo-Hurler polydystrophy: complementation analysis and kinetic studies.

Complementation was examined among various types of I-cell disease and pseudo-Hurler polydystrophy by monitoring N-acetylglucosaminylphosphotransferase activity in multinucleated cells produced by fusing pair combinations of cultured skin fibroblasts. Patients with the classical forms of these disorders (5 I-cell disease and 3 pseudo-Hurler polydystrophy cell lines) comprised one complementation group and 5 cell lines from patients with variant forms of pseudo-Hurler polydystrophy comprised a distinct complementation group. In the first group, total or partial deficiency of the transferase activity was demonstrated with both natural (lysosomal enzymes) and artificial (alpha-methylmannoside) acceptor substrates with low Vmax but apparently normal Km values for the donor (UDP-GlcNAc) and acceptor (alpha-methylmannoside) substrates. The activity toward artificial substrate could be inhibited by adding exogenous lysosomal enzyme preparations to the reaction mixture. In the second group, the cells demonstrated deficiency of the transferase activity toward lysosomal enzyme acceptors but had normal activity toward alpha-methylmannoside acceptor and this activity could not be inhibited by the addition of exogenous lysosomal enzyme preparations. These findings suggest that N-acetylglucosaminylphosphotransferase is composed of at least two distinct subunits, a catalytic subunit which is absent or defective in the first complementation group, and a recognition subunit which is altered or deficient in the second group.

The cyclic relationship of estrogen sulfurylation to the nuclear receptor level in human endometrial curettings.

Human endometrial curettings were selected principally from patients undergoing tubal ligations for elective sterilization. Specimens were analyzed for the metabolism of 17beta-[6,7-3H]estradiol and Na2 35SO4; assayed for the nuclear receptor content with 17beta-[6,7-3H]estradiol; and examined for the cytosol receptor content with 17beta-[2,4,6,7-3H]estradiol. The results of these experiments demonstrated that a) estrogen sulfotransferase activity is greatly stimulated during the secretory phase; b) although estrogen dehydrogenase is active throughout the menstrual cycle, the formation of estrone is elevated in concert with sulfurylation; and c) this increased metabolism of 17beta-estradiol is accompanied by a decreased nuclear uptake of the estrogen receptor complex. The importance of this endometrial estrogen metabolism in the maintenance of a secretory tissue is discussed.

Nuclear and cytosolic estrogen receptor in gilt endometrium throughout the estrous cycle.

The levels of nuclear and uncharged cytoplasmic estrogen receptors were determined in gilt endometrium throughout the estrous cycle. Nuclear estrogen receptor was found to reach its highest level of 1.3 (range, 1.0-1.5) pmol/mg DNA on day 1 of the cycle just before ovulation (day 2), after which the values dropped sharply to 0.3 (range, 0.1-0.4) pmol/mg DNA. This level of nuclear receptor was consistently found through day 9. Between days 9-14, the estrogen receptor present in the nucleus decreased to zero, where it remained until the return of estrus (day 1). The dissociation constant (Kd +/- SD) for the nuclear estrogen receptor was 1.6 (+/- 1.4) x 10(-9) M. Initially, the nuclear estrogen receptor peak at day 1 was preceded by elevation (0.04-0.05 pmol/mg DNA) in cytoplasmic receptor at day 19, which declined when the receptor appeared in the nucleus. There was an even larger peak (range of maximal values, 0.07-0.26 pmol/mg DNA) of uncharged receptor in the cytosol near day 5. Throughout the rest of the cycle the values ranged from 0.01-0.03 pmol/mg DNA. Kd( +/- SD) for the cytoplasmic estrogen receptor was 2.4 (+/- 1.5) x 10(-9) M. The fluctuations of these two pools of endometrial estrogen receptor are discussed in relation to the previously observed cyclic variations in porcine uterine oxidation and sulfurylation of 17 beta-estradiol (Pack and Brooks, Endocrinology 95: 1680, 1974).

Role of sulfate conjugation in estrogen metabolism and activity.

There has been an increasing interest in the sulfate conjugates of estrogens as important metabolites in steroid hormone homeostasis and activity. In women estrogen sulfates have been known as major components of plasma originating from ovarian secretion and hepatic metabolism. However, only recently has the capacity to sulfurylate estrogens been demonstrated in estrogen target tissues. Porcine uterus estrogen sulfotransferase appears only after the first complete estrous cycle. Following puberty, gilt uterine sulfurylation of estrogens is extremely active during diestrus, whereas estrogen sulfotransferase is not present during estrus. This cycling of estrogen sulfurylation in porcine and human uteri can be related directly to plasma progesterone levels. Rodent and human mammary tumors are also highly active in both steroid alcohol and estrogen sulfotransferases. Unlike uterine sulfotransferases, these enzymes are apparently stimulated by factors that appear following ovariectomy. The function of estrogen sulfurylation by target tissues remains obscure. However, recent investigations have indicated that the cyclic variation in endometrial estrogen sulfurylation may control the availability of 17 beta-estradiol to the cytoplasmic receptor. This premise is supported by the continued high estrogen sulfurylation activity and low nuclear receptor levels during implantation in fertilized gilts and sows. Utilizing purified bovine adrenal sulfotransferase, the substrate and inhibitor requirements were determined for this enzymes. It was also possible to design a specific inhibitor that will block estrogen sulfurylation without interfering with the receptor binding and nuclear migration of physiological levels of 17 beta-estradiol. This inhibitor, 3-methoxy-4-nitroestrone, will help in establishing the role of uterine and mammary estrogen sulfurylation.