Human ZP3 Research Articles

Differential O-Glycosylation of a Conserved Domain Expressed in Murine and Human ZP3

Murine sperm initiate fertilization by binding to the zona pellucida (mZP), the specialized extracellular matrix of their homologous eggs. O-Glycans occupying two highly conserved vicinal glycosylation sites (Ser-332 and Ser-334) on the mZP glycoprotein designated mZP3 were previously implicated in this interaction. However, recent biophysical analyses confirm that neither site is occupied, implying that an alternate O-glycosylation domain may be operational in native mZP3. Since human ZP3 (huZP3) can substitute for mZP3 in rescue mice to mediate sperm binding, the site specificity of O-glycosylation in both native mZP3 and huZP3 was analyzed using ultrasensitive mass spectrometric techniques. Two O-glycosylation sites in native mZP3, one at Thr-155 and the other within the glycopeptide at positions 161-168 (ATVSSEEK), are conserved in huZP3 derived from transgenic mice. Thus, there is a specific O-glycosylation domain within native mZP3 expressing two closely spaced O-glycans that is very well conserved in an evolutionarily related glycoprotein. In native mZP3, core 2 O-glycans predominate at both sites. However, in huZP3 derived from rescue mice, the O-glycans associated with Thr-156 (analogous to Thr-155 in mZP3) are exclusively core 1 and related Tn sequences, whereas core 2 O-glycans predominate at the other conserved site. This unique restriction of O-glycan expression suggests that sequence differences in the conserved O-glycosylation domains of mZP3 and huZP3 affect the ability of core 2 N-acetylglucosaminyltransferase(s) to extend the core 1 sequence. However, this difference in O-glycosylation at Thr-156 does not affect the fertility or the sperm binding phenotype of eggs derived from female huZP3 rescue mice.

Human Sperm Do Not Bind to Rat Zonae Pellucidae Despite the Presence of Four Homologous Glycoproteins

The specificity of sperm-egg recognition in mammals is mediated primarily by the zona pellucida surrounding ovulated eggs. Mouse sperm are quite promiscuous and bind to human eggs, but human spermatozoa will not bind to mouse eggs. The mouse zona pellucida contains three glycoproteins, ZP1, ZP2, and ZP3, which are conserved in rat and human. The recent observation that human zonae pellucidae contain a fourth protein raises the possibility that the presence of four zona proteins will support human sperm binding. Using mass spectrometry, four proteins that are similar in size and share 62-70% amino acid identity with human ZP1, ZP2, ZP3, and ZP4/ZPB were detected in rat zonae pellucidae. However, although mouse and rat spermatozoa bind to eggs from each rodent, human sperm bind to neither, and the presence of human follicular fluid did not alter the specificity of sperm binding. In addition, mutant mouse eggs lacking hybrid/complex N-glycans or deficient in Core 2 O-glycans were no more able to support human sperm binding than normal mouse eggs. These data suggest that the presence of four zona proteins are not sufficient to support human sperm binding to rodent eggs and that additional determinants must be responsible for taxon-specific fertilization among mammals.

Mammalian fertilization.

Mammalian fertilization.

Mass spectrometry analysis of recombinant human ZP3 expressed in glycosylation-deficient CHO cells.

The zona pellucida is an extracellular matrix that mediates taxon-specific fertilization in which human sperm will not bind to mouse eggs. The mouse zona pellucida is composed of three glycoproteins (ZP1, ZP2, ZP3). The primary structure of each has been deduced from the cDNA nucleic acid sequence, and each has been analyzed by mass spectrometry. However, determination of the secondary structure and processing of the human zona proteins have been hampered by the paucity of biological material. To investigate if taxon-specific sperm-egg recognition was ascribable to structural differences in a zona protein required for matrix formation, recombinant human ZP3 was expressed in CHO-Lec3.2.8.1 cells and compared to mouse ZP3. With nearly complete coverage, LC-QTOF mass spectrometry was used to determine the cleavage of an N-terminal signal peptide (amino acids 1-22) and the release of secreted ZP3 from a C-terminal transmembrane domain (amino acids 379-424). The resultant N-terminal glutamine was cyclized to pyroglutamate (pyrGln(23)), and several C-terminal peptides were detected, including one ending at Asn(350). The disulfide bond linkages of eight cysteine residues in the conserved zona domain were ascertained (Cys(46)/Cys(140), Cys(78)/Cys(99), Cys(217)/Cys(282), Cys(239)/Cys(300)), but the precise linkage of two additional disulfide bonds was indeterminate due to clustering of the remaining four cysteine residues (Cys(319), Cys(321), Cys(322), Cys(327)). Three of the four potential N-linked oligosaccharide binding sites (Asn(125), Asn(147), Asn(272)) were occupied, and clusters of O-glycans were observed within two regions, amino acids 156-173 and 260-281. Taken together, these data indicate that human and mouse ZP3 proteins are quite similar, and alternative explanations of taxon-specific sperm binding warrant exploration.

Insights into the molecular basis of sperm-egg recognition in mammals.

The zona pellucida surrounding the egg and pre-implantation embryo is required for in vivo fertility and early development. Explanatory models of sperm-egg recognition need to take into account the ability of sperm to bind to ovulated eggs, but not to two-cell embryos. For the last two decades, investigators have sought to identify an individual protein or carbohydrate side chain as the 'sperm receptor'. However, recent genetic data in mice are more consistent with the three-dimensional structure of the zona pellucida, rather than a single protein (or carbohydrate), determining sperm binding. The mouse and human zonae pellucidae contain three glycoproteins (ZP1, ZP2, ZP3) and, following fertilization, ZP2 is proteolytically cleaved. The replacement of endogenous mouse proteins with human ZP2, ZP3 or both does not alter taxon specificity of sperm binding or prevent fertility. Surprisingly, human ZP2 is not cleaved following fertilization and intact ZP2 correlates with persistent sperm binding to two-cell embryos. Taken together, these data support a model in which the cleavage status of ZP2 modulates the three-dimensional structure of the zona pellucida and determines whether sperm bind (uncleaved) or do not (cleaved).

Increased expression of the FIGLA transcription factor is associated with primordial follicle formation in the human fetal ovary.

The process of primordial follicle formation is central to the determination of a woman's reproductive lifespan, and in humans occurs towards the end of mid-gestation. Gene knockout analysis in the mouse has shown that Figla, a transcription factor specifically expressed in germ cells, is essential for oocytes to survive and form primordial follicles. Our objective was to investigate whether a human homologue present in the genome database plays a similar role in human ovary development. Standard and real-time RT-PCR demonstrated that the human FIGLA gene is expressed in the fetal ovary but not by a range of other tissues, and that expression increases across mid-gestation, rising some 40-fold by the time of primordial follicle formation. The entire coding sequence was cloned and new exonic sequences identified. Electrophoretic mobility shift assays with in vitro-expressed human FIGLA protein showed that, as in the mouse, FIGLA can heterodimerize with E12 protein and bind to the E-box of the human ZP2 promoter. Similar mobility shifts were identified in human fetal ovary extracts. These results suggest that FIGLA is involved in continued oocyte survival as primordial follicles form in the human as in the rodent ovary.

Murine and human zona pellucida 3 derived from mouse eggs express identical O-glycans.

Murine sperm initiate fertilization by binding to the outer covering of the egg known as the murine zona pellucida (mZP). This binding is thought to require the interaction of O-glycans linked to a specific mZP glycoprotein (mZP3) with egg-binding proteins coating the sperm plasma membrane. The precise molecular basis of this interaction remains to be resolved. In this study, we analyzed the O-glycosylation of the individual mZP glycoproteins by using ultrasensitive MS methods. We found that the majority of the O-glycans that are linked to mZP3 are core type 2 sequences terminated with sialic acid, lacNAc (Galbeta1-4GlcNAc), lacdiNAc (Gal-NAcbeta1-4GlcNAc), Galalpha1-3Gal, and NeuAcalpha2-3[GalNAcbeta1-4]Galbeta1-4 (Sda antigen). Many of these terminal sequences have been implicated previously in murine sperm-egg binding. Core type 1 O-glycans are also present and are generally unmodified, although some are terminated with sialic acid, beta-linked N-acetylhexosamine, or NeuAcalpha2-3[GalNAcbeta1-4]Galbeta1-4. Eggs expressing human ZP (huZP) glycoprotein huZP3, derived from transgenic mice, bind murine but not human sperm, implying that huZP3 acquires the same O-glycans as native mZP3. Sequencing of huZP3-associated O-glycans confirms that this implication is correct. The data obtained in this investigation may prove to be very useful for studies to determine the precise molecular basis of initial murine sperm-egg binding.

Fertility and Taxon-Specific Sperm Binding Persist after Replacement of Mouse Sperm Receptors with Human Homologs

The zona pellucida surrounding ovulated mouse eggs contains three glycoproteins, two of which (ZP2 and ZP3) are reported sperm receptors. After fertilization, the zona pellucida is modified ad minimus by cleavage of ZP2, and sperm no longer bind. Crosstaxa sperm binding is limited among mammals, and human sperm do not bind to mouse eggs. Using transgenesis to replace mouse ZP2 and/or ZP3 with human homologs, mouse lines with human-mouse chimeric zonae pellucidae have been established. Unexpectedly, mouse, but not human, sperm bind to hu ZP2 and hu ZP2/hu ZP3 rescue eggs, eggs fertilized in vitro with mouse sperm progress to two-cell embryos, and rescue mice are fertile. Also unanticipated, human ZP2 remains uncleaved after fertilization, and mouse sperm continue to bind early rescue embryos. These observations are consistent with a model in which the supramolecular structure of the zona pellucida necessary for sperm binding is modulated by the cleavage status of ZP2.

Immunoglobulins against gp273, the ligand for sperm-egg interaction in the mollusc bivalve Unio elongatulus, are directed against charged O-linked oligosaccharide chains bearing a Lewis-like structure and interact with epitopes of the human zona pellucida.

In oocytes of the mollusc bivalve Unio elongatulus, gp273 is the ligand molecule for sperm-egg interaction and binding is mediated by its O-glycans. A serum raised against this protein enabled its localization in the crater region, the area of the vitelline coat where sperm recognition occurs, and showed that after cyanogen bromide fragmentation, the anti-gp273 epitope(s) was retained by a peptide where the O-glycans are localized. In this article, we utilized purified anti-gp273 immunoglobulins to characterize the corresponding epitope by: (i) immunoblotting analysis of the protein after removal of O- and N-glycans; (ii) solid phase binding analysis of anti-gp273 IgG to gp273 N- and O-glycans; and (iii) binding analysis of the same antibody to commercially available oligosaccharides. The results showed that the epitope consists of O-glycans and contains a Lewis-like structure with fucose as determinant. Anti-gp273 IgG were then used to investigate human zona pellucida by immunoelectronmicroscopy and immunoblotting. Epitopes recognized by the antibody were demonstrated on the outer surface of the zona pellucida and shown to belong to a zona pellucida protein having electrophoretic mobility similar to human ZP3. Since human sperm specifically bind to gp273, and anti-gp273 interferes with this binding a functional role for these epitopes is suggested.

Evidence suggesting that the mouse sperm acrosome reaction initiated by the zona pellucida involves an alpha7 nicotinic acetylcholine receptor.

The mammalian sperm acrosome reaction (AR) is essential to fertilization and is believed to be initiated in vivo by ZP3, a glycoprotein component of the egg zona pellucida (ZP). Recently, we reported the results of antagonist studies suggesting that a nicotinic acetylcholine receptor (nAChR) containing an alpha7 subunit (alpha7nAChR) plays a role in the human sperm AR initiated by recombinant human ZP3 or by acetylcholine (ACh). Here, we show that ACh can initiate the mouse sperm AR and that antagonists of the nAChR inhibit the AR initiated by ACh or by ZP obtained from ovarian oocytes (isolated heat-solubilized mouse ZP). Preincubation with three antagonists of the nAChR, alpha-bungarotoxin (100 nM), alpha-conotoxin IMI (100 nM), and methyllycaconitine (100 nM), significantly blocked AR initiation by ACh or by isolated heat-solubilized mouse ZP (P </= 0.002). Because the only nAChR subunit known to bind all three antagonists is the alpha7, an alpha7nAChR appears to be involved in the mouse sperm AR initiated by mouse ZP or by ACh. The nAChR antagonists did not inhibit the AR initiated by calcium ionophore A23187, suggesting that the role of alpha7nAChR is upstream from Ca2+ influx. Pertussis toxin (PTX, 100 ng/ml) did not inhibit the AR initiated by ACh, suggesting that the alpha7nAChR might be a candidate for the PTX-insensitive, poorly selective cation channel shown previously to play a role in ZP-initiated mouse sperm AR. These studies with mouse sperm and ovary-derived ZP strongly support our previous conclusion that activation of an alpha7nAChR is important to the mammalian AR initiated by the egg ZP.

Proteolytic processing of human zona pellucida proteins.

Formation of the egg's extracellular matrix, the zona pellucida, is critical for fertilization and development of growing embryos. Zona pellucida glycoproteins, ZP1, ZP2, and ZP3, are secreted to form an insoluble extracellular matrix surrounding mammalian eggs. All cloned mammalian zona pellucida sequences contain a furin consensus cleavage site, RX(K)/(R)R, upstream of a putative transmembrane domain, which suggests processing by an endoprotease of the furin-proprotein-convertase family. Recombinant expression of human (h) ZP1, ZP2, and ZP3 produces glycoproteins that are secreted and have migration patterns in SDS-PAGE identical to those of native human zona pellucida proteins. Because a C-terminal epitope tag that is present in the cell-associated zona proteins is, however, absent from the secreted zona proteins, secreted recombinant zona pellucida proteins lack their C-terminal regions. Three different strategies were used to explore processing events in the C-terminal region: site-directed mutagenesis of the furin cleavage site, treatment with a competitive inhibitor of all furin family members, and interference with Golgi modifications by Brefeldin A. All treatments altered the SDS-PAGE migration of recombinant hZP3, concordant with cleavage by a furin family member and Golgi glycosylation of secreted hZP3. Furthermore, cleavage of cell-associated hZP3 by exogenous furin converts the migration of cell-associated hZP3 to that of secreted hZP3. To determine whether a similar cleavage pattern exists in zona pellucida proteins that are assembled in the zona matrix, "hZP3 rescue" mouse zonae pellucidae were employed. Immunoblotting experiments revealed that hZP3, assembled and functional in the "hZP3 rescue" mouse zona pellucida, lacks the furin cleavage site, supporting the hypothesis that formation of the zona pellucida matrix involves regulated proteolysis by a member of the furin convertase family.

A role for the human sperm glycine receptor/Cl(-) channel in the acrosome reaction initiated by recombinant ZP3.

Previously, we have demonstrated an essential role for the neuronal glycine receptor (GlyR) in the acrosome reaction (AR) of mouse and porcine sperm initiated by the egg zona pellucida (ZP). In the present study, we have demonstrated presence of the GlyR in human sperm by immunoprecipitation and Western blot analysis, investigated the potential of a recombinant human ZP3 (rhZP3) preparation as an alternative research tool to solubilized human ZP, and shown that the human sperm GlyR is essential to the human AR initiated by rhZP3. Additionally, we have been able to demonstrate that rhZP3 possesses biological activity, because it is able to rapidly stimulate the AR in capacitated human sperm and its action is blocked by the addition of pertussis toxin. Moreover, spectrofluorometric studies using fura-2-loaded human sperm have shown that rhZP3 triggers a peak-and-plateau rise in intracellular Ca(2+) levels similar to that seen with solubilized mammalian ZP. These results suggest that the actions of rhZP3 and solubilized ZP are elicited via the same signal transduction pathways. Furthermore, incubation of human sperm with an antibody directed against the alpha1 subunit of the human spinal cord GlyR or with 50 nM strychnine caused significant inhibition in the rhZP3-initated AR. Finally, studies using fura-2-loaded human sperm showed that 50 nM strychnine was also able to inhibit the Ca(2+) influx associated with addition of rhZP3. These results further support the view that rhZP3 and the ZP work through the same mechanisms, show that the GlyR is involved in rhZP3-initiated AR, and suggest that the GlyR may also play a role in the early signal transduction cascades associated with ZP-initiated AR in vivo.

Oocyte-specific genes regulate follicle formation, fertility and early mouse development

Gene products expressed in oocytes play important roles in folliculogenesis, fertilization and pre-implantation development. Factor in the Germline, alpha (FIGα) is a basic helix-loop-helix (bHLH) transcription factor first detected in oocytes at E13.5 that persists in adults. Female mice lacking FIGα are unable to form primordial follicles which results in massive depletion of oocytes and sterility. FIGα is also required for expression of the zona pellucida genes that encode ZP1, ZP2, and ZP3. Mice lacking ZP1 form structurally abnormal zonae and have decreased fecundity. Mice lacking ZP3 have no zona matrix despite the presence of the other two zona proteins. Although, folliculogenesis occurs in Zp3 null mice, few eggs are ovulated and females are sterile. Transgenic mice expressing human ZP3 have been crossed with Zp3 null mice and reconstitute a chimeric zona pellucida matrix (moZP1, moZP2, huZP3). Unexpectedly, human sperm do not bind to ‘humanized’ zonae pellucidae in vitro, but mouse sperm do. Although, late in oogenesis, oocytes becomes transcriptionally inactive and maternal RNA is degraded, the activation of early development requires pre-existing maternal products from the egg. Maternal antigen that embryos require ( Mater) is a single-copy gene that is transcribed in growing oocytes and, although its transcripts are degraded during meiotic maturation, MATER protein persists into the blastocyst. Female mice lacking this 125 kDa cytoplasmic protein produce no off-spring because of an embryonic block at the early cleavage stage. Thus, Mater represents one of the few documented maternal effect genes in mammalian development.

Sulfogalactosylglycerolipid is involved in human gamete interaction

Recent results from our laboratory have revealed the role of sulfogalactosylglycerolipid (SGG) in mouse sperm-zona pellucida (ZP) binding. In this report, we demonstrated the presence of SGG in Percoll-gradient centrifuged (PGC) human sperm by high performance thin layer chromatography with orcinol and Azure A staining, specific for glycolipids and sulfolipids, respectively. SGG in human PGC sperm was quantified by its affinity to Azure A to be 12-15 mol% of sperm lipids. Indirect immunofluorescence revealed that SGG existed on both live and aldehyde fixed human sperm in the head region. Pretreatment of human PGC sperm with affinity purified antiSGG Fab markedly inhibited sperm binding to the ZP in a concentration dependent manner, without any changes in the spontaneous acrosome rate or sperm motility parameters. Fluorescently labeled SGG liposomes also bound uniformly to isolated human ZP, while fluorescently labeled galactosylglycerolipid (GG, SGG's parental lipid) or phosphatidylserine (PS, negatively charged like SGG) liposomes did not. All of these results suggested the role of human sperm SGG in ZP binding.

The ovary as an immune target.

The ovary does not have a distinct morphologic barrier between the immune system and the developing gametes. This is in contrast to the testis in which the junctional complexes between the Sertoli cells form the blood-testis barrier. Whereas there are numerous factors, including genetic ones, associated with ovarian dysfunction, the immune factors have frequently been implicated in ovarian dysfunction. Much of our knowledge used to evaluate the immune system of the ovary has come from studies on the expression of the zona pellucida (ZP) proteins during ovarian development. Initial studies by Dunbar and colleagues demonstrated that immunization of rabbits with porcine ZP proteins (but not rabbit ZP proteins) would result in the generation of antibodies that inhibit sperm binding to the ZP and interfere with normal ovarian follicular development. In contrast to the rabbit and primate models, immunization of mice or rats with porcine ZP proteins does not have an effect on fertility or ovarian function although immunization of certain strains of mice with mouse ZP peptides and immune activator systems has been shown to result in ovarian pathology. Whereas immune inflammatory reactions have been observed in the mouse models, no such immune reactions have been observed in rabbit, guinea pig, or nonhuman primate models. Subsequent observations in nonhuman primates have shown that immunization of primates with ZP proteins expressed from cDNAs coding for the mouse and rabbit ZP2 (the mouse homologue has 60% amino acid identity with human ZP2) or the mouse ZP3 (the mouse protein has 67% amino acid identity with human ZP3) causes ovarian dysgenesis. In contrast, immunization of primates with recombinant rabbit ZP1 protein (the mouse homologue has 39% amino acid identity with human ZP1) does not affect nonhuman primate ovarian function or follicular development but will elicit antibodies that inhibit sperm binding to the primate ZP. These studies have collectively provided important information concerning the immunologic status of the ovary and demonstrate the species variations in immune responses to different ovarian immunogens.

Cluster of genes encoding the major egg envelope protein of zebrafish

The proteins of fish egg envelopes are encoded by genes that are closely related to the genes for human zona pellucida proteins. A cluster of three genes coding for an egg envelope protein was isolated from the zebrafish, Danio rerio. The three genes, zp2a, zp2b, and zp2c, are located within an 11 kb region and are each comprised of eight exons spanning 1.85 kb. The exon-intron structures of the genes are nearly identical; however, their deduced amino acid sequences diverge at exon 7 (zp2b and zp2c from zp2a) and exon 8 (zp2c from zp2b). Exons 2-7 have a structural organization similar to exons in the carboxy-terminal half of the human zona pellucida ZP1, ZP2, and ZPB genes, suggesting they arose from a common ancestral gene. Sequence comparisons indicate that the deduced zebrafish proteins are most closely related to human ZPB. Zebrafish mRNAs coding for each of the three ZP2 variants have been found either as full-length cDNAs or expressed sequence tags. Distinct from the wf(female) gene of winter flounder which we first reported (Lyons et al., 1993: J Biol Chem 268:21351-21358), expression of the zebrafish zp2 genes was found to be ovary-specific, instead of liver-specific, and the promoter regions of zp2a and zp2b, while different, both contained E-box sequences (CANNTG) that have been demonstrated to be essential for coordination of zona pellucida gene expression in mammalian oocytes. Mixed peptide sequence analysis was used to identify the major polypeptide component of isolated zebrafish egg envelopes as the zp2 gene product.

Selection of peptides targeting the human sperm surface using random peptide phage display identify ligands homologous to ZP3.

Analysis of the surface architecture of human spermatozoa is a necessary step in the development of new approaches to contraception and resolving the causes of human infertility. In this study we have utilized phage display technology to identify peptides that bind with high affinity to the surface of human spermatozoa. Fifteen- and twelve-mer random peptide phage display libraries were screened against paraformaldehyde-fixed spermatozoa and a number of sperm-binding peptides were identified. One peptide, M6, displayed a high level of affinity for the sperm surface and showed sequence homology with a dominant human ZP3 epitope (hZP 25-33). This peptide bound preferentially to the equatorial and post acrosomal domains of the sperm head and exhibited contraceptive activity by virtue of its capacity to impair the fusion of acrosome-reacted spermatozoa with the vitelline membrane of the oocyte. A similar form of contraceptive activity was also observed within an unrelated peptide, K6, derived from screening the 12-mer library. These results indicate that phage display technology is a powerful tool for developing reagents capable of targeting the human sperm surface, providing insights into the composition of this structure and the identity of targets susceptible to contraceptive attack and pathological disruption.

Evidence for the participation of beta-hexosaminidase in human sperm-zona pellucida interaction in vitro.

Mammalian sperm-zona pellucida (ZP) interaction is mediated by sperm lectin-like proteins and ZP glycoproteins. We have previously reported the participation of binding sites for N-acetylglucosamine (GlcNAc) residues in human sperm function, including sperm interaction with the ZP. Additionally, previous results from our laboratory suggested that some of these events may be mediated by the glycosidase N-acetylglucosaminidase (beta-hexosaminidase, Hex, in mammals). In this study, we report the possible participation of Hex in human sperm-ZP interaction. Human recombinant Hex (hrHex) was obtained by expression in a stable transfected CHO cell line. When the recombinant enzyme was present during hemizona (HZ) assays, the number of sperm bound per HZ was significantly reduced. The same result was obtained when HZ were preincubated with hrHex. Additionally, the presence of a Hex-specific substrate during the HZ assay produced the same inhibitory effect. These results suggest the participation of a sperm Hex in the interaction with human ZP in vitro.

Identification of Human Sperm Peptide Sequence Involved in Egg Bindingfor Immunocontraception1

Development of a vaccine based on sperm antigens represents a promising approach to contraception. The sperm-zona pellucida (ZP) interaction constitutes the most important event in the fertilization process, and the molecular sequences involved at this site may provide the most attractive candidates for immunocontraception. In the present study, using the phase peptide display technique, a novel dodecamer sequence, designated as YLP(12), was identified that is involved in sperm-ZP recognition/binding. The synthetic 12-mer peptide based on this sequence and its monovalent Fab' antibodies specifically and significantly (P < 0.05) inhibited human sperm-ZP binding. In Western blot and immunoprecipitation procedures, the YLP(12) peptide recognized the ZP3 component of solubilized human ZP proteins. In the Western blot procedure involving 10 different human tissue extracts, the anti-YLP(12) Fab' antibodies recognized a protein band of approximately 72 +/- 2 kDa only in the testis lane. The peptide sequence was localized on the acrosomal region of the human sperm cell. These findings indicate that the novel testis-specific 12-mer YLP(12) that is present in the acrosomal region and is involved in human sperm-ZP interaction may find applications in contraceptive vaccine development, as well as in diagnosis and treatment of male infertility mediated through sperm dysfunction.

Physiological induction of the acrosome reaction in human sperm: validation of a microassay using minimal volumes of solubilized, homologous zona pellucida.

The objective was to develop a method that could accommodate microvolumes of solubilized human (ZP) and sperm for assessing the induction of the acrosome reaction. A microassay using 1 microliter of 2.5, 1.25, 0.6, 0.3, and 0.125 ZP/microliter incubated with 1 microliter of a highly motile sperm suspension for 60 min. As a control and parallel to the microassay a standard acrosome reaction technique was performed. No significant differences were observed between the percentage acrosome-reacted sperm reported by the two assays under basal conditions (spontaneous) or after induction with a Ca2+ ionophore or solubilized ZP. At a ZP concentration of 0.6 ZP/microliter, the percentages of acrosome-reacted spermatozoa in both techniques were significantly higher compared to the spontaneous acrosome reaction results, namely 18% and 17%, compared to 10% and 10%, respectively. Approximately a 30% level of acrosomal exocytosis was induced with 2.5 ZP/microliter both methods. This newly devised microtechnique is easy and rapid to perform, is repeatable, and facilitates the use of minimal volumes of solubilized human ZP (even a single ZP) for assessment of the inducibility of the acrosome reaction of a homologous sperm population.