Characterization of fucosyltransferase activity during mouse spermatogenesis: evidence for a cell surface fucosyltransferase

Ligands and Receptors Involved in the Sperm-Zona Pellucida Interactions in Mammals

Sperm-zona pellucida (ZP) interaction, involving the binding of sperm surface ligands to complementary carbohydrates of ZP, is the first direct gamete contact event crucial for subsequent gamete fusion and successful fertilization in mammals. It is a complex process mediated by the coordinated engagement of multiple ZP receptors forming high-molecular-weight (HMW) protein complexes at the acrosomal region of the sperm surface. The present article aims to review the current understanding of sperm-ZP binding in the four most studied mammalian models, i.e., murine, porcine, bovine, and human, and summarizes the candidate ZP receptors with established ZP affinity, including their origins and the mechanisms of ZP binding. Further, it compares and contrasts the ZP structure and carbohydrate composition in the aforementioned model organisms. The comprehensive understanding of sperm-ZP interaction mechanisms is critical for the diagnosis of infertility and thus becomes an integral part of assisted reproductive therapies/technologies.

The identity of zona pellucida receptor on spermatozoa: an unresolved issue in developmental biology

Mammalian oocytes are surrounded by an acellular zona pellucida (ZP). Fertilization begins when a capacitated spermatozoon binds to the ZP. Defective sperm-ZP interaction is a cause of male infertility and reduced fertilization rates in clinical assisted reproduction treatment. Despite the importance of spermatozoa-ZP binding, the mechanisms and regulation of the interaction are unclear partly due to the failure in the identification of ZP receptor on spermatozoa. Most of the previous studies assumed that the sperm ZP receptor is a single molecular species, and a number of potential candidates had been suggested. Yet none of them can be considered as the sole sperm ZP receptor. Accumulated evidence suggested that the sperm ZP receptor is a dynamic multi-molecular structure requiring coordinated action of different proteins that are assembled into a functional complex during post-testicular maturation and capacitation. The complex components may include carbohydrate-binding, protein-binding and acrosomal matrix proteins which work as a suite to mediate spermatozoa-ZP interaction. This article aims to review the latest insights in the identification of the sperm ZP receptor. Continued investigation of the area will provide considerable understanding of the regulation of fertilization that will be useful for practical application in human contraception and reproductive medicine.

Glycodelin-A interacts with fucosyltransferase on human sperm plasma membrane to inhibit spermatozoa-zona pellucida binding

Fertilization depends on successful binding of the spermatozoa to the zona pellucida of the oocyte. Glycodelin-A inhibits spermatozoa-zona pellucida binding. Previous data showed that glycodelin-A receptor(s) and zona pellucida protein receptor(s) on human spermatozoa are closely related. Using a chemical cross-linking approach, the glycodelin-A-sperm receptor complex was isolated. The receptor was identified to be fucosyltransferase-5 (FUT5) by mass spectrometry and confirmed with the use of anti-FUT5 antibodies. Sperm FUT5 was an externally oriented integral membrane protein in the acrosomal region of human spermatozoa. Biologically active FUT5 was purified from spermatozoa. Co-immunoprecipitation confirmed the interaction between glycodelin-A and sperm FUT5. Solubilized zona pellucida reduced the binding of glycodelin-A to sperm FUT5. An anti-FUT5 antibody and FUT5 acceptor blocked the binding of glycodelin-A to spermatozoa and the zona binding inhibitory activity of glycodelin-A. Sperm FUT5 bound strongly to intact and solubilized human zona pellucida. The equilibrium dissociation constant of sperm FUT5 binding to solubilized zona pellucida was 42.82 pmol/ml. These observations suggest that human sperm FUT5 is a receptor of glycodelin-A and zona pellucida proteins, and that glycodelin-A inhibits spermatozoa-zona binding by blocking the binding of sperm FUT5 to the zona pellucida.

Glycan-modifying enzymes in luminal fluid of the mammalian epididymis: an overview of their potential role in sperm maturation

Testicular spermatozoa and those present within the proximal regions of the epididymis are unable to bind to the zona pellucida, the extracellular coat that surrounds the oocyte, and fertilize the egg. They acquire progressive motility and fertilizing ability during passage through the epididymis. Mammalian spermatozoa undergo biochemical and physiological changes during epididymal transit that are collectively termed epididymal maturation. The process involves several intracellular and extracellular changes in the spermatozoon, including remodeling of the sperm plasma membrane and modifications of glycan moieties of the sperm surface glycoconjugates. Two sets of glycan-modifying enzymes, namely glycohydrolases that cleave sugar residues and glycosyltransferases that add sugar residues to the existing glycoconjugates, are present in the epididymal luminal fluid that surrounds spermatozoa. Thus, it is reasonable to expect that glycan chains present on the sperm surface will interact with these glycan-modifying enzymes in the epididymal fluid. In this article, I have attempted to summarize and present an overview on the potential role of these glycan-modifying enzymes in sperm maturation.

Sonication of mouse sperm membranes reveals distinct protein domains

Molecular interactions between sperm and zona pellucida (ZP) during mammalian fertilization are not well characterized. To begin to characterize sperm components that are involved in sperm-ZP interactions, we isolated and density fractionated sperm membranes. The membrane fractions recovered from a density fractionation protocol were characterized, and sonication was compared with vortexing for preparation of sperm membranes by examining the distribution of proteins in the membrane fractions obtained from these 2 protocols. Biochemical and microscopic analyses were used to determine the composition of the sonicated membrane fractions, and immunoblotting was used to identify fractions containing some of the previously suggested ZP3 receptors. Transmission electron microscopy revealed that bands 1-3 contained membrane vesicles and band 4 contained axonemal and midpiece fragments. SDS-PAGE revealed that bands 1 and 2 shared many proteins, but band 3 contained a number of unique proteins. Surface labeling with 125I demonstrated that bands 1 and 2 contained the majority of the sperm surface protein markers, whereas band 3 contained minor amounts of surface markers. Lectin-binding characteristics of sperm membrane glycoproteins were used to compare the relative distribution of glycosylated proteins in vortexed or sonicated membrane preparations. These characterizations indicate that sonication enhanced the differential distribution of sperm membrane proteins among the density fractions and suggests that this method is preferable for preparation of membrane fractions to be used for identification of proteins that mediate sperm-egg interactions.

Deficiency of reproductive tract alpha(1,2)fucosylated glycans and normal fertility in mice with targeted deletions of the FUT1 or FUT2 alpha(1,2)fucosyltransferase locus

The fucose alpha(1-->2) galactose beta structure is expressed by uterine epithelial cells in the mouse and has been implicated in blastocyst adhesion events thought to be required for murine implantation. Fucalpha(1-->2)Galbeta moieties and cognate fucosyltransferases are also expressed by epithelial cells of the male reproductive tract and have been implicated in sperm maturation events that may contribute to fertilization. To determine directly if Fucalpha(1-->2)Galbeta moieties are required for fertility, we have generated strains of mice that are deficient in genes encoding FUT1 and FUT2, a pair of GDP-L-fucose:beta(1-->4)-D-galactosyl-R 2-alpha-L-fucosyltransferase enzymes (EC 2.4.1.69) responsible for Fucalpha(1-->2)Galbeta synthesis and expression. FUT1 null mice and FUT2 null mice develop normally and exhibit no gross phenotypic abnormalities. The Fucalpha(1-->2)Galbeta epitope is absent from the uterine epithelia of FUT2 null mice and from the epithelia of the epididymis of FUT1 null mice. Fully normal fertility is observed in FUT1 null intercrosses and in FUT2 null intercrosses. These observations indicate that Fucalpha(1-->2)Galbeta moieties are not essential to blastocyst-uterine epithelial cell interactions required for implantation and are not required for sperm maturation events that permit fertilization and that neither the FUT loci nor their cognate fucosylated glycans are essential to normal development.

Mechanism of the block to hybridization and selfing between the sympatric ascidians Ciona intestinalis and Ciona savignyi

The solitary ascidians Ciona intestinalis and Ciona savignyi co-occur in southern California harbors, but no hybrids have been recognized in nature. Numerous differences in their egg morphology were detected. Homologous (normal outcross) fertilization yielded 96-99% cleavage, where autologous (self) fertilization showed 3% and heterologous (hybrid) fertilization showed 0-1%. Acid treatment (pH 3.2) removed the block to selfing (P < 0.0001) but not hybridization for both species. Heterologous sperm bind to the vitelline coat (VC), but fail to penetrate. Enzymatic removal of the VC resulted in 91-97% cleavage with autologous and heterologous sperm (P < 0.0001). The vitelline coats of the two species differ in lectin binding to surface glycosides. Fertilization in both species is significantly inhibited by the lectins, fucose binding protein (P < 0.0001) and concanavalin A (P < 0.0001), and wheat germ agglutinin inhibits fertilization in C. intestinalis (P < 0.0001) but is without effect on C. savignyi fertilization. Self and hybrid blocks employ different mechanisms including glycoside composition and acid sensitivity.

The rat alpha1, 3-fucosyltransferase (rFucT-IV) gene encodes both long and short forms of the enzyme which share the same intracellular location

Fucosyltransferase (FucT) activity has been detected on the surface of mouse germ cells and rat Sertoli cells, and has been postulated to play a role in cell-cell interactions. A recently cloned rat FucT (rFucT-IV) is expressed in the testes, and thus is a candidate for encoding the cell-surface FucT activity. This study maps the 5'-ends of several rFuc-T-IV mRNAs, and these results suggest that initiation of transcription may occur both upstream of the first ATG, as well as between the first two closely spaced, in-frame ATGs. Thus, in certain tissues, notably spleen, significant amounts of both a long and a short form of rFucT-IV would be predicted. This study also determines some basic properties of both the long and short forms of rFucT-IV, and investigates whether the use of alternative ATGs would allow FucT activity to be expressed both on the cell surface and in the Golgi. Plasmids that encode FLAG-epitope-labeled rFucT-IVs that initiate from either of the two ATGs were constructed, and rFucT-IV was expressed either in vitro using cell-free rabbit reticulocyte lysate, or after transfection in tissue culture. The results from these studies demonstrate that rFucT-IV is a glycosylated, transmembrane protein with a short cytoplasmic tail, and that either of the two ATGs in the 5' region of the rFucT-IV gene are capable of acting as functional initiators of translation in vitro, to produce enzymatically active glycoproteins. However, no difference in the intracellular localization between the transferase containing a 48 amino acid or a 15 amino acid cytoplasmic tail was detected by immunocytochemistry, as both show the same pattern of Golgi-like staining in several different cell types, with no indication of surface expression. Thus, the additional amino-terminal 33 amino acids of the long form of rFucT-IV do not appear to influence its intracellular location in the cell types investigated.

Murine sperm-zona binding, a fucosyl residue is required for a high affinity sperm-binding ligand. A second site on sperm binds a nonfucosylated, beta-galactosyl-capped oligosaccharide

An essential initial step in murine fertilization is the binding of acrosome-intact sperm to specific O-linked oligosaccharides on zona pellucida glycoprotein 3. While there is agreement on the primary role of O-linked glycans in this process, there is a lack of consensus on both the terminal monosaccharide(s) required for a functional sperm binding site and the corresponding protein on the sperm cell surface that recognizes this ligand. Much current debate centers on an essential role for either a terminal N-acetylglucosaminyl or, alternatively, a terminal alpha-galactosyl residue. To gain insight into the terminal saccharides required to form a functional sperm-binding ligand, dose-response curves were generated for a series of related tri- and tetrasaccharides to evaluate their relative effectiveness to competitively inhibit the in vitro binding of murine sperm to zona pellucida-enclosed eggs. A GlcNAc-capped trisaccharide, GlcNAc beta 1,4GlcNAc beta 1,4GlcNAc,was inactive (1-72 microM range). In contrast, a beta 4-galactosyl-capped trisaccharide (Gal beta 1,4GlcNAc beta 1, 4GlcNAc) and an alpha 3-galactosyl-capped trisaccharide (Gal alpha 1,3Gal beta 1,4 GlcNAc) inhibited sperm-zona binding with low or moderate affinity (ED50 = 42 microM and 5.3 microM, respectively). The addition of an alpha 3-fucosyl residue to each of these two competitive inhibitors, forming Gal beta 1,4[Fuc alpha 1,3] GlcNAc beta 1,4GlcNAc or Gal alpha 1,3Gal beta 1, 4[Fuc alpha 1,3]Glc NAc, resulted in ligands with 85- and 12-fold higher affinities for sperm, respectively (ED50 = 500 and 430 nM). Thus, the presence of a fucosyl residue appears to be obligatory for an oligosaccharide to bind sperm with high affinity. Last, mixing experiments with pairs of competitive inhibitors suggest that murine sperm-zona binding is mediated by two independent oligosaccharide-binding sites on sperm. The first (apparently high affinity) site binds both the alpha 3-galactosyl-capped trisaccharide and the two fucosylated tetrasaccharides. The second (apparently low affinity) site binds a nonfucosylated beta-galactosyl-capped trisaccharide.

Cloning of a rat alpha1,3-fucosyltransferase gene: a member of the fucosyltransferase IV family

We report the cloning of a rat alpha1,3-fucosyltransferase gene (rFuc-T), isolated from a rat genomic library by a PCR-cross-hybridization based cloning approach using primers derived from the conserved region of human alpha1,3-Fuc-T sequences. Comparison of the rFuc-T predicted amino acid sequence with those of previously cloned human and murine fucosyltransferases showed highest degree of homology to murine Fuc-TIV (87% identity) and human Fuc-TIV (78% identity), with lower homology (41-49% identity) to Fuc-TIII, V, VI, and VII. COS-1 cells transfected with the rFuc-Tgene expressed a fucosyltransferase activity with type 2 (Gal beta1-->4GlcNAc)-containing oligosaccharides and the glycolipid acceptor neolactotetraosylceramide but only low activity with sialylated substrates; the SSEA-1/Le(x) antigen was detected in transfected cells by immunocytochemistry. Based on these results, we surmise that rFuc-T is a member of the fucosyltransferase IV family. Northern blot analysis with a rFuc-T specific probe indicated a major transcript of 4.2 kb most abundantly expressed in rat spleen; minor transcripts of different sizes were detected in several tissues, including rat brain.

Defining oligosaccharide specificity for initial sperm-zona pellucida adhesion in the mouse

The identity of the sperm surface protein(s) responsible for sperm-zona pellucida binding in the mouse, as well as the characteristics of the oligosaccharide groups on zona pellucida glycoprotein 3 (ZP3) having ligand activity toward this receptor, remain controversial. Conflicting results from several groups have made interpretation of the current data difficult. By developing a quantitative binding assay to evaluate the molecular interactions between mammalian sperm and the zona pellucida during initial gamete interactions, we directly quantified sperm-ZP binding interactions at the molecular level for the first time. The ZP binding assay demonstrated that live, capacitated mouse sperm bind solubilized 125I-labeled ZP glycoproteins in a concentration-dependent manner characterized by a rapid forward rate constant of 3.0 x 10 (7)M-1 min-1. Following the initial characterization, the binding assay was used to examine the roles of the sperm surface enzymes galactosyltransferase (GalTase) and fucosyltransferase (FucTase) in sperm-zone pellucida binding in the mouse. These data indicate that substrates for FucTase, but not for GalTase, inhibit sperm-ZP binding, in contrast to earlier reports in which GalTase substrates significantly inhibited sperm binding to intact ZPs. A model is presented which resolves conflicting results between assays using intact ZPs and the results obtained here using soluble 125I-ZPs. Assuming a complex binding/recognition site, monosaccharides that could occupy part of the binding site would have a dramatic effect on sperm-ZP binding to the intact ZP, since they need only occupy the binding sites for a short time (approximately 100 msec) to disrupt binding. The current results suggest that the sperm ZP3 receptor binding site minimally recognizes the gal beta 1, 3-GlcNAc moiety also recognized by FucTases. The current data do not exclude the possibility that additional sugar residues form part of the ligand oligosaccharide group and are recognized by a yet-to-be-identified sperm surface protein which serves as the ZP3 receptor.

The initial molecular interaction between mouse sperm and the zona pellucida is a complex binding event

Prior to fertilization, mammalian sperm must first bind to the zona pellucida (ZP), a glycoprotein matrix surrounding the egg. Sperm specifically bind to ZP3, an 83-kDa glycoprotein which functions as both an adhesion molecule and as a secretagogue for acrosomal exocytosis (Litscher, E. S., and Wassarman, P. M. (1993) Trends Glycosci. Glycotechnol. 5, 369-388). We used acid solubilized, 125I-labeled ZPs to quantify the initial binding event on mouse spermatozoa. Live sperm could not be used since solubilized ZPs rapidly initiated exocytosis. Instead, acrosome intact mouse sperm were briefly fixed in 1% glutaraldehyde for binding studies using a standard filtration assay. The fixed sperm are suitable for sperm-zona binding assays based on two experiments: 1) incubating either live or fixed sperm in low concentrations of 125I-ZPs not sufficient to induce acrosomal exocytosis revealed no differences in binding up to 15 min and 2) solubilized, unlabeled ZPs competed for 125I-ZPs with an KI of approximately 3.78 nm. Sperm-125I-ZP binding reached equilibrium with a tau1/2 of approximately 22 min at 37 degrees C. Affinity parameters were calculated using the well substantiated assumption that only ZP3 binds intact mouse sperm. The on-rate constant for association of 125I-ZP binding to the mouse sperm surface was calculated to be 3.2 x 10(6) M-1 min-1. The saturation binding isotherm revealed that there are approximately 30,000 binding sites, ascribed to ZP3, with an EC50 of 1.29 nM. Further analysis indicated that this binding is complex (Hill coefficient = 1.72), suggesting involvement of multiple receptors on the sperm surface and/or multiple ligand moieties. High and low affinity ZP binding sites on the sperm surface were confirmed by dissociation experiments. 125I-ZP dissociation was clearly biphasic, and kinetic off-rate constants of 0.161 min-1 and 0.0023 min-1 were calculated for the low and high affinity sites, respectively. Apparent affinities (Kd values) of 50 nM for the low affinity and 0.72 nM for the high affinity interaction were calculated from the rate constants. These data demonstrate that the initial adhesion event between mouse sperm and the zona pellucida is a high affinity event which is sufficient to tether a sperm to the extracellular matrix prior to the induction of acrosomal exocytosis.

Participation of glycosylated residues in the human sperm acrosome reaction: possible role of N-acetylglucosaminidase

Sperm binding to the egg zona pellucida is mediated by complementary protein-carbohydrate interaction. This binding results in the exocytosis of the sperm acrosome, or acrosome reaction (AR). We report the effect of different neoglycoproteins (sugar residues covalently bound to bovine serum albumin) on the human sperm AR. p-Aminophenyl-N-acetyl-beta-D-glucosaminide-BSA (BSA-GlcNAc) and p-aminophenyl-alpha-D-mannopyranoside-BSA (BSA-Man) at 1 micrograms/ml were capable of inducing the greatest percentages of AR (3-fold stimulation with respect to controls), while other NeoGPs had only a weak effect on this process. The BSA-GlcNAc-induced acrosome reaction was inhibited by N-acetylglucosamine (GlcNAc), p-nitrophenyl-GlcNAc, and purified soluble beta-N-acetylglucosaminidase (beta NAG). The induction of the AR with BSA-Man could be inhibited by mannose, while soluble alpha-mannosidase was only partially effective. These data suggest that binding sites for GlcNAc and mannose may be involved in the induction of the AR in human sperm. The characteristics of the BSA-GlcNAc induction suggest that the beta NAG molecule may be the mediator of this effect.

Surface-associated glycosyltransferase activities in rat Sertoli cells in vitro

We have previously demonstrated fucosyltransferase (FT) activity on mouse germ cell surfaces at different stages of spermatogenesis. To complement these findings, here we report FT activity on the Sertoli cell (SC) surface. SC isolated and cultured from 20-day-old rat testes displayed FT activity with a Vmax of 12.5 pmoles/mg protein/min and a Km of 22 microM, while purified Sertoli cell plasma membranes (SCPM) showed FT activity with a Vmax of 10 pmoles/mg protein/min and a Km of 18.2 microM for GDP-[14C]-L-fucose. Fucosyltransferase activities were 16.7 and 2.6 pmoles/mg protein/min in SC and SCPM, respectively; approximately 16% of FT activity is, therefore, on the cell surface. To test whether the expression of FT activity in SC was regulated by hormones and growth factors, SC were cultured in serum-free medium supplemented with insulin, transferrin, sodium selenite, and epidermal growth factor (medium 4F) or in 4F plus follicle-stimulating hormone, testosterone, hydrocortisone, and vitamin E (medium 8F). We found that FT activity in SC is not modulated by these hormones or growth factors (4F or 8F). For comparison with FT, galactosyltransferase (GalTase) activities in SC and SCPM were also determined. SC displayed GalTase activity with a Vmax of 50 pmoles/mg protein/min and a Km of 38.5 microM, while SCPM showed GalTase activity with a Vmax of 25 pmoles/mg protein/min and a Km of 20.8 microM for UDP-[3H]-galactose. Galactosyl-transferase activities were 29.2 and 9.6 pmoles/mg protein/min in SC and SCPM, respectively. Therefore, approximately 33% of the total cell GalTase activity was detected on the surface membranes of rat Sertoli cells.(ABSTRACT TRUNCATED AT 250 WORDS)

N-cadherin mediates Sertoli cell-spermatogenic cell adhesion

The complex topological association of Sertoli cells and spermatogenic cells in the testis suggests the existence of cell surface adhesion molecules that regulate cellular interactions within the seminiferous epithelium. The recent report of N-cadherin mRNA expression in the mouse testis implies the involvement of this known adhesion molecule in testicular cell binding. Accordingly, here we report that (1) N-cadherin is found on the surface membranes of rat spermatogenic cells and on Sertoli cells, and (2) that N-cadherin is a partial mediator of Sertoli cell-germ cell adhesion as tested in an vitro cell-cell binding assay. Antiserum directed against the N-cadherin cell adhesion recognition sequence was used for Western blot anlaysis of purified plasma membranes from Sertoli cells and from spermatogenic cells. Both membrane preparations exhibited reactivity at an appropriate M(r) of about 130 kDa. In addition, immunofluorescence assays demonstrated that both germ cells and Sertoli cells were labeled by anti-N-cadherin. Finally, the antiserum was included in a cytometer-assisted cell-cell binding test to determine its inhibitory ability. The antiserum consistently reduced specific testicular cell-cell adhesion by 30%-50%. This is the first demonstration that antibodies directed against the cadherin cell adhesion recognition sequence are capable of inhibiting cell-cell interactions. Pre-incubation of either rat Sertoli cells or spermatogenic cells alone was sufficient to achieve statistically significant inhibition of intercellular adhesion. We conclude, therefore, that N-cadherin is expressed by both Sertoli cells and spermatogenic cells and that N-cadherin is one of a number of regulatory molecules mediating local cellular associations in the mammalian seminiferous tubule.

Synthesis, purification, and characterization of 2,4,6-trinitrophenyl-UDP-galactose: a fluorescent substrate for galactosyltransferase

Glycosyltransferases enzymatically transfer monosaccharides from sugar-nucleotides to complex oligosaccharide chains and, as cell surface molecules, exhibit receptor-like activity. We have modified the substate UDP-galactose to produce a compound that has useful absorbance and fluorescence properties upon binding to galactosyltransferase (GalTase). Using strategies similar to those for preparing fluorescent ATP analogs, we were able to synthesize 2,4,6-trinitrophenyl-5'-UDP-galactose (TUG). In solution, the absorbance properties of TUG are pH dependent, with absorbance maxima at 260, 408, and 453 nm and an isobestic point at 353 nm. In the presence of soluble GalTase extracted from bovine milk, TUG exhibited an excitation maximum at 368 nm with emission maxima at 436 and 533 nm; in the absence of GalTase only the 533-nm peak was present. Under enzymatic conditions, TUG acted as a competitive substrate of UDP-galactose with GalTase. Under noncatalytic conditions, the fluorescence emission of TUG at 436 nm increased monotonically with Gal-Tase concentration, with a half-maximal response at approximately 4 microM. This compound may be useful for quantifying GalTase function as both an enzyme and a cell adhesion molecule.

Additional fucosyl residues on membrane glycoproteins but not a secreted glycoprotein from cystic fibrosis fibroblasts

Glycopeptides derived from peripheral membrane glycoproteins of skin fibroblasts of seven patients with cystic fibrosis (CF) had an increase in fucosyl residues when compared with those of seven age, race and sex matched controls (Pediatr Res 1985;19:368-374). To further define these results, the membrane glycopeptides which bound to immobilized lentil lectin and thereby enriched in fucosyl residues linked alpha 1----6 to N-acetylglucosamine attached to asparagine, were Pronase digested, partially purified and examined by 500-MHz 1H-NMR spectroscopy. The CF derived glycopeptides had two different features when compared to those from Controls (1) an increased number of fucosyl residues linked alpha 1----6 to the N-acetylglucosamine attached to asparagine and (2) fucosyl residues linked alpha 1----3 to a branch N-acetylglucosamine. The glycopeptides from both sources were of the di and triantennary type containing sialic acid linked alpha 2----3 and alpha 2----6 to galactose in an approximate molar ratio of 3:2 and 2:1, from CF and Control, respectively. Glycopeptides derived from a glycoprotein, fibronectin, secreted from CF fibroblasts were also examined by 1H-NMR spectroscopy and showed no evidence of fucosyl residues linked alpha 1----3 to branch N-acetylglucosamine and a lesser percentage of core fucose than found in the peripheral membrane glycopeptides. These results define further the altered fucosylation of the CF peripheral membrane glycoproteins.

Thin-layer chromatographic method for the determination of glycosyltransferase activity

To survey glycosyltransferase activities and specificities we have developed a TLC method to separate various nucleotide sugars from both high- and low-molecular-weight sugar acceptors. Here, we report details of the procedure and its application for galactosyltransferase and fucosyltransferase detected in mouse spermatogenic cells. The assay method involves sample separation using polyethyleneimine cellulose plastic-backed thin-layer plates, developed in sodium phosphate buffer for 30 min. Nucleotide sugars, including UDP-Gal, GDP-Fuc, CMP-NeuNAc, and GDP-Man, remain at the origin, while both high- and low-molecular-weight sugar acceptors migrate within 2 cm of the solvent front. Assays for galactosyltransferase and fucosyltransferase are linear with time and yield results comparable to other methods such as gel permeation chromatography and micropartitioning filtration. The TLC protocol should be useful for determinations of many different glycosyltransferases.