Binding of caput epididymal mouse sperm to the zona pellucida

Immature sperm from the caput epididymis are immotile and infertile. It is thought that caput epididymal sperm are infertile due to their immotility, as well as to an inability to bind to the zona pellucida, suggesting the absence of a functional receptor for the zona. However, the sperm receptor for the zona pellucida has been identified previously as the enzyme galactosyltransferase (GalTase) (L. C. Lopez et al. (1985) J. Cell Biol. 101, 1501-1510) and is present on the surface of caput as well as cauda epididymal sperm (N. F. Scully et al., (1987) Dev. Biol. 124, 111-124.). In this paper we examine this apparent conflict and show that immotile caput epididymal sperm are able to bind to the zona pellucida if they are first washed free of caput epididymal secretions, which contain factors that inhibit sperm-zona binding. Consistent with this finding are results that show that caput epididymal fluid is capable of inhibiting the binding of mature, cauda epididymal sperm to the zona pellucida. Caput epididymal fluid contains, among many other components, a soluble GalTase and an alpha-lactalbumin-like protein, both of which are capable of inhibiting mouse sperm-zona binding. Thus, caput epididymal sperm have the appropriate receptor, i.e., GalTase, for the zona pellucida, to which they can bind if removed from the inhibitory factors that mask their zona-binding ability.     

Evidence for a novel enzymatic mechanism of neural crest cell migration on extracellular glycoconjugate matrices

Migrating embryonic cells have high levels of cell surface galactosyltransferase (GalTase) activity. It has been proposed that GalTase participates during migration by recognizing and binding to terminal N-acetylglucosamine (GlcNAc) residues on glycoconjugates within the extracellular matrix (Shur, B. D., 1982, Dev. Biol. 91:149-162). We tested this hypothesis using migrating neural crest cells as an in vitro model system. Cell surface GalTase activity was perturbed using three independent sets of reagents, and the effects on cell migration were analyzed by time-lapse microphotography. The GalTase modifier protein, alpha-lactalbumin (alpha-LA), was used to inhibit surface GalTase binding to terminal GlcNAc residues in the underlying substrate. alpha-LA inhibited neural crest cell migration on basal lamina-like matrices in a dose-dependent manner, while under identical conditions, alpha-LA had no effect on cell migration on fibronectin. Control proteins, such as lysozyme (structurally homologous to alpha-LA) and bovine serum albumin, did not effect migration on either matrix. Second, the addition of competitive GalTase substrates significantly inhibited neural crest cell migration on basal lamina-like matrices, but as above, had no effect on migration on fibronectin. Comparable concentrations of inappropriate sugars also had no effect on cell migration. Third, addition of the GalTase catalytic substrate, UDPgalactose, produced a dose-dependent increase in the rate of cell migration. Under identical conditions, the inappropriate sugar nucleotide, UDPglucose, had no effect. Quantitative enzyme assays confirmed the presence of GalTase substrates in basal lamina matrices, their absence in fibronectin matrices, and the ability of alpha-LA to inhibit GalTase activity towards basal lamina substrates. Laminin was found to be a principle GalTase substrate in the basal lamina, and when tested in vitro, alpha-LA inhibited cell migration on laminin. Together, these experiments show that neural crest cells have at least two distinct mechanisms for interacting with the substrate during migration, one that is fibronectin-dependent and one that uses GalTase recognition of basal lamina glycoconjugates.     

Cell surface galactosyltransferase mediates the initiation of neurite outgrowth from PC12 cells on laminin

Neurite outgrowth from PC12 pheochromocytoma cells, as well as from peripheral and central nervous system neurons in vitro, is mediated by the extracellular matrix molecule, laminin. We have recently shown that mesenchymal cell spreading and migration on laminin is mediated, in part, by the cell surface enzyme, beta 1,4 galactosyltransferase (GalTase). GalTase is localized on lamellipodia of migrating cells where it functions as a laminin receptor by binding to specific N-linked oligosaccharides in laminin (Runyan et al., 1988; Eckstein and Shur, 1989). In the present study, we examined whether GalTase functions similarly during neutrite outgrowth on laminin using biochemical and immunological analyses. PC12 neurite outgrowth was inhibited by reagents that perturb cell surface GalTase activity, including anti-GalTase IgG and Fab fragments, as well as the GalTase modifier protein alpha-lactalbumin. Control reagents had no effect on neurite outgrowth. Furthermore, blocking GalTase substrates on laminin matrices by earlier galactosyltion or enzymatic removal of GalTase substrates also inhibited neurite outgrowth. Conversely, neurite outgrowth was enhanced by the addition of UDP-galactose, which completes the GalTase enzymatic reaction, while inappropriate sugar nucleotides had no effect. The effects of all these treatments were dose and/or time dependent. Surface GalTase was shown to function during both neurite initiation and elongation, although the effects of GalTase perturbation were most striking during the initiation stages of neurite formation. Consistent with this, surface GalTase was localized by indirect immunofluorescence to the growth cone and developing neurite. Collectively, these results demonstrate that GalTase mediates the initiation of neurite outgrowth on laminin, and to a lesser extent, neurite elongation. Furthermore, this study demonstrates that process extension from both mesenchymal cells and neuronal cells is partly dependent upon specific oligosaccharide residues in laminin.     

Aggregation of beta-1,4-galactosyltransferase on mouse sperm induces the acrosome reaction

beta-1,4-Galactosyltransferase (GalTase) is present on the surface of mouse sperm, where it functions during fertilization by binding to oligosaccharide residues in the egg zona pellucida. The specific oligosaccharide substrates for sperm GalTase reside on the glycoprotein ZP3, which possesses both sperm-binding and acrosome reaction-inducing activity. A variety of reagents that perturb sperm GalTase activity inhibit sperm binding to the zona pellucida, including UDP-galactose, N-acetylglucosamine, alpha-lactalbumin, and anti-GalTase Fab fragments. However, none of these reagents are able to cross-link GalTase within the membrane nor are they able to induce the acrosome reaction. On the other hand, intact anti-GalTase IgG blocks sperm-zona binding as well as induces the acrosome reaction. Anti-GalTase IgG induces the acrosome reaction by aggregating GalTase on the sperm plasma membrane, as shown by the inability of anti-Gal-Tase Fab fragments to induce the acrosome reaction unless cross-linked with goat anti-rabbit IgG. These data suggest that zona pellucida oligosaccharides induce the acrosome reaction by clustering GalTase on the sperm surface.     

Cell surface beta-1,4-galactosyltransferase is associated with the detergent-insoluble cytoskeleton on migrating mesenchymal cells.

Cell surface beta-1,4-galactosyltransferase (GalTase) partially mediates a variety of cell interactions with laminin-containing matrices, including mesenchymal cell spreading and migration and neurite initiation, by binding to N-linked oligosaccharides within the E8 domain of laminin. Previous studies using indirect immunofluorescence have suggested that some surface GalTase colocalizes with actin-containing microfilaments in migrating cells. In this study, we present more direct biochemical evidence showing that surface GalTase is associated with the detergent-insoluble cytoskeleton and that this association is dependent upon the integrity of the cytoskeleton, valency of the anti-GalTase antibody, and migratory status of the cell. Two-thirds of the surface GalTase was associated with the detergent-insoluble cytoskeleton when assayed either by monovalent anti-GalTase Fab fragments or by extracting any detergent-soluble GalTase prior to labeling with intact anti-GalTase IgG. However, 80-100% of the surface GalTase could be induced to associate with the cytoskeleton when cross-linked with anti-GalTase IgG prior to detergent extraction. Destabilizing cytoskeleton-protein interactions with high levels of KCl, elevated pH, or cytochalasin B reduced the amount of surface GalTase retained in the detergent-insoluble cytoskeleton fraction. Finally, we have shown previously that laminin induces the expression of GalTase onto lamellipodia of migrating cells, and in this study, we show that the laminin-induced increase in surface GalTase is cytoskeletally associated. Collectively, these data suggest that cell surface GalTase participates in cell spreading and migration on laminin by virtue of its association with the cytoskeleton.     

beta-Phosphorothioate analogs of nucleotide sugars are resistant to hydrolytic degradation and utilized efficiently by glycosyltransferases.

The alpha- and beta-phosphorothioate analogs of UDP-Gal and UDP-Glc, in which a sulfur is exchanged for a non-bridging oxygen at one of the phosphate groups, have been synthesized and tested for their resistance to enzymatic degradation and for their usefulness in glycosyltransferase reactions. The alpha analogs were found to be no more resistant to hydrolysis than the native nucleotide sugars, but as previously reported (R. B. Marchase et al. (1987) Biochim. Biophys. Acta 916: 157) the beta S analogs were approximately 10 times more resistant. The beta S analog and native UDP-Glc were found to have comparable Km's when used in assays for glucosylphosphoryl dolichol synthase with rat liver and hen oviduct microsomes, although the apparent Vmax of the reaction was about twofold higher for the analog, presumably due to its resistance to degradation. Partially purified 4 beta-galactosyltransferase exhibited a Vmax with (beta S)UDP-Gal that was only slightly lower than that with UDP-Gal and a Km that was slightly increased. The effectiveness of the analog was especially apparent in assays for 4 beta-galactosyltransferase on intact sperm and in rat liver homogenates, in which hydrolysis of the normal substrate was very rapid and net incorporation was at least 4 times greater with the beta S analog in each system.     

Use of mildronate in therapy of seroresistant syphilis (serologic and immunologic comparisons

Clinico-serological and immunological examinations were applied to 84 patients suffering from seroresistant syphilis with positive serological reactions within 1.5 to 10 years after termination of the treatment by various methods. The initial diagnosis of recently inflicted secondary syphilis was recorded in 8.9 per cent of the patients. 43.3 and 47.8 per cent of the patients had secondary relapsing syphilis and early occult syphilis, respectively. The percentage of lymphocytes CD3+, CD4+, CD8+ and HLA DR+ was determined in peripheric blood with the monoclonal antibodies OKT-3+, OKT-4+, OKT-8+ and FITC-labeled antimouse Ig. The quantity of IgA, IgG and IgM was determined by radial immunodiffusion. The immunoregulatory index (IRI, the ratio of T-helper/inductor cells and T-suppressor cells/cytotoxics) was calculated. The use of mildronate, a drug developed at the Institute of Organic Chemistry of the Academy of Sciences of the Latvian SSR (Riga), led to normalization of the impaired immunological indices and complete negativation of the serological reactions in the group of the patients with disorders in the immunity status (CD8+ - 33 per cent and IRI - 1.3), p less than 0.01.     

Sperm from beta1,4-galactosyltransferase I-null mice exhibit precocious capacitation

Mammalian sperm must undergo a physiological maturation, termed capacitation, before they are able to fertilize eggs. Despite its importance, the molecular mechanisms underlying capacitation are poorly understood. In this paper, we describe the capacitation phenotype of sperm lacking the long isoform of beta1,4-galactosyltransferase I (GalT I), a sperm surface protein that functions as a receptor for the zona pellucida glycoprotein, ZP3, and as an inducer of the acrosome reaction following ZP3-dependent aggregation. As expected, wild-type sperm must undergo capacitation in order to bind the zona pellucida and undergo a Ca(2+) ionophore-induced acrosome reaction. By contrast, GalT I-null sperm behave as though they are precociously capacitated, in that they demonstrate maximal binding to the zona pellucida and greatly increased sensitivity to ionophore-induced acrosome reactions without undergoing capacitation in vitro. The loss of GalT I from sperm results in an inability to bind epididymal glycoconjugates that normally maintain sperm in an 'uncapacitated' state; removing these decapacitating factors from wild-type sperm phenocopies the capacitation behavior of GalT I-null sperm. Interestingly, capacitation of GalT I-null sperm is independent of the presence of albumin, Ca(2+) and HCO(3)(-); three co-factors normally required by wild-type sperm to achieve capacitation. This implies that intracellular targets of albumin, Ca(2+) and/or HCO(3)(-) may be constitutively active in GalT I-null sperm. Consistent with this, GalT I-null sperm have increased levels of cAMP that correlate closely with both the accelerated kinetics and co-factor-independence of GalT I-null sperm capacitation. By contrast, the kinetics of protein tyrosine phosphorylation and sperm motility are unaltered in mutant sperm relative to wild-type. These data suggest that GalT I may function as a negative regulator of capacitation in the sperm head by suppressing intracellular signaling pathways that promote this process.