Capacitation induces tyrosine phosphorylation of proteins in the boar sperm plasma membrane.

Capacitation (activation) of mammalian spermatozoa is accompanied by protein phosphorylation, elevation of the intracellular calcium concentration and an increased plasma membrane fluidity. The subcellular localization of tyrosine phosphorylation during capacitation have not yet been elucidated. The aim of this study was to investigate whether boar sperm capacitation induces tyrosine phosphorylation of plasma membrane proteins. Capacitation induced tyrosine phosphorylation of 3 proteins (27, 37, and 40 kDa), which coincided with an increase in the plasma membrane fluidity. The importance of the induced tyrosine phosphorylation in sperm binding to the zona pellucida and the induction of the acrosome reaction is discussed.     

Characterization of low Mr zona pellucida binding proteins from boar spermatozoa and seminal plasma.

A group of low Mr (16 kDa-23 kDa) glycoproteins on ejaculated boar spermatozoa have been shown to have high affinity for homologous zona pellucida glycoproteins (ZPGPs). These ZPGP binding proteins are derived from seminal plasma as shown by their absence from epididymal spermatozoa and their presence in seminal plasma as identified by N-terminal amino acid sequence analysis. They bind to ZPGPs by a polysulphate recognition mechanism similar to that found for proacrosin-ZPGP interactions. The haemagglutination activity of boar seminal plasma is also associated with these low Mr glycoproteins. It is suggested that they play a role in regulating the rate of sperm capacitation and survival in the female reproductive tract.     

Effects of exposure of epididymal boar spermatozoa to seminal plasma on the binding of zona pellucida proteins during in vitro capacitation

The purpose of the investigation was to determine whether seminal plasma plays a role in the increase during in vitro capacitation of the number of boar spermatozoa with enhanced binding of zona pellucida proteins. Ejaculated spermatozoa and spermatozoa collected from the caudae epididymides of boars were incubated at 39 degrees C in a Tyrode's IVF medium. During incubation, the zona binding ability of individual spermatozoa was assessed with fluorescein-conjugated solubilized zona pellucida proteins (FITC-sZP), using a flow cytometer. Propidium iodide (PI) was included to simultaneously monitor cell viability. During incubation of ejaculated spermatozoa, a percentage of the spermatozoa expressed enhanced binding of FITC-sZP. The percentage of viable spermatozoa with enhanced binding reached a maximum of 37% (S.D.=8, averaged over five boars) after 2-3 h. In epididymal sperm, a similar maximum was observed after incubation in vitro, but a longer time of incubation was needed (6 h). Also, the rate of cell death of epididymal sperm was much lower than that of ejaculated sperm. When epididymal spermatozoa was exposed to seminal plasma in vitro, the time needed to reach a maximal percentage of viable spermatozoa with enhanced FITC-sZP binding was similar to that in ejaculated semen. However, the rate of cell death was still much lower than in ejaculated sperm. We concluded that the binding sites on the sperm surface that are involved in the increased binding of zona proteins during incubation under IVF conditions were not derived from the seminal plasma. The cellular processes leading to the increased binding capacity were accelerated by exposure of the sperm to seminal plasma.     

The complete primary structure of three isoforms of a boar sperm-associated acrosin inhibitor.

Acrosin inhibitors of seminal vesicle origin, after binding to their acceptor molecules on the anterior part of ejaculated sperm, are thought to be important capacitation factors, protecting zona binding sites during sperm uterine passage, and then dissociating to allow sperm binding to the zona pellucida of the oocyte. Each species so far tested possess an heterogeneous population of isoinhibitors which may display overlapping but not identical biological functions. Here we report the complete primary structure of three isoforms of a boar sperm-associated acrosin inhibitor, whose sequences are 90% identical to the seminal plasma counterpart. Despite this high analogy, the differences between the sperm-associated and the seminal plasma inhibitors may confer to them different physico-chemical properties which are postulated to be of functional importance.     

Zona pellucida protein binding ability of porcine sperm during epididymal maturation and the acrosome reaction

In many mammals, the first interaction between gametes during fertilization occurs when sperm contact the zona pellucida surrounding the egg. Although porcine sperm first contact the zona pellucida via their plasma membrane, the regions of the sperm surface that display zona receptors have not been determined. We have used the Alexa 488 fluorophore conjugated to solubilized porcine zona pellucida proteins to observe zona receptors on live boar sperm. Zona proteins bound live, acrosome-intact sperm on the anterior portion of the sperm head, concentrated in a thin band over the acrosomal ridge. When sperm membranes were permeabilized by fixation or acrosome reactions induced by the ionophore A23187, zona binding was extended to a broad area covering the entire acrosomal region. Zona binding proteins were present in the acrosomes of sperm from all regions of the epididymis. In contrast, zona binding sites were found on the plasma membrane of most sperm from the corpus and cauda epididymis, but on only 6% of caput epididymal sperm. In conclusion, acrosome-intact boar sperm exhibit concentrated zona protein binding over the acrosomal ridge and acquire this binding in the corpus region of the epididymis, correlating with the developmental stage at which sperm gain the ability to fertilize oocytes.     

Capacitation-dependent reorganization of microdomains in the apical sperm head plasma membrane: functional relationship with zona binding and the zona-induced acrosome reaction

For sperm to successfully fertilize an oocyte, it needs to pass through certain steps prior to, during and after initial recognition of the zona pellucida (ZP). During capacitation, the surface of the sperm head becomes remodelled, priming it to bind to the ZP and subsequently to undergo the ZP-induced acrosome reaction. During capacitation, sperm ZP-binding proteins are ordered in functional protein complexes that only emerge at the apical tip of the sperm head plasma membrane; this is also functionally the exclusive sperm surface area involved in primary ZP binding. After primary ZP binding, the same area is probably involved in the induction of the acrosome reaction. A combination of biochemical and proteomic membrane protein techniques have enabled us to dissect and highly purify the apical sperm plasma membrane area from control and capacitated sperm cells. The actual ZP-binding proteins identified predominantly belonged to the sperm membrane-associated family members of spermadhesins (AQN-3) and were present in the aggregating lipid ordered membrane microdomains (lipid rafts) that emerged during in vitro capacitation in the apical ridge area of the sperm head plasma membrane. This clustering of these rafts was dependent on the presence of bicarbonate (involved in protein kinase A activation) and on the presence of albumin (involved in cholesterol removal). Remarkably, cholesterol removal was restricted to the non-raft membrane fraction of the sperm plasma membrane, but did not cause any depletion of cholesterol in the raft membrane fraction. Interestingly, sperm SNARE proteins (both VAMP from the outer acrosomal membrane, as well syntaxin from the apical sperm head plasma membrane) shared lateral redistribution properties, along with the ZP-binding protein complex and raft marker proteins. All of these were recovered after capacitation in detergent-resistant membrane preparations from sperm thought to represent membrane lipid rafts. We inferred that the capacitation-dependent formation of an aggregated lipid ordered apical ridge surface area in the sperm head plasma membrane was not only relevant for ZP-binding, but also for the ZP-induced acrosome reaction.     

Isolation and characterization of a protein with homology to angiotensin converting enzyme from the periacrosomal plasma membrane of equine spermatozoa

The periacrosomal plasma membrane of spermatozoa is involved in sperm binding to oviductal epithelial cells and to the zona pellucida. A protein of 68–70 kD molecular mass was purified biochemically from the isolated periacrosomal plasma membrane of equine spermatozoa as a possible receptor for adhesion of spermatozoa to oviductal epithelial cells. A polyclonal antibody raised in rabbits against the purified equine sperm membrane protein recognized the 70 kD and an antigenically related 32 kD protein in preparations of isolated periacrosomal sperm plasma membrane and in detergent extracted ejaculated and epididymal spermatozoa. A larger protein (∼110 kD) was detected in equine testis. Two antigenically related proteins (64 and 45 kD) were recognized on the plasma membrane of cynomolgus macaque spermatozoa. In vitro sperm-binding assays were performed in the presence of antigen-binding fragments or IgG purified from the polyclonal antiserum to investigate a possible function of the isolated protein in binding of equine spermatozoa to homologous oviductal epithelial cells or zona pellucida. Incubation with antigen-binding fragments or IgG purified from the antiserum did not inhibit binding of equine spermatozoa either to oviductal epithelial cells or to the zona pellucida. On ultrastructural examination, the antibody bound exclusively to the cytoplasmic side of the periacrosomal plasma membrane of equine and macaque spermatozoa. Microsequence analysis of 13 residues of sequence showed strong homology with a number of angiotensin converting enzymes: An 84% identity was identified with testis specific and somatic forms of human and mouse angiotensin-converting enzyme. Immunocytochemistry and immunoblot analysis established that the protein is specific for the periacrosomal membrane of ejaculated, epididymal, and testicular stallion spermatozoa. Mol. Reprod. Dev. 48:251–260, 1997. © 1997 Wiley-Liss, Inc.     

VLA-6 integrin distribution and calcium signalling in capacitated boar sperm.

Previous investigations showed that VLA-6 integrin present on boar sperm membrane can induce acrosome reaction upon exposure to laminin accumulated in expanded cumuli (Mattioli et al., 1998. To further investigate this novel sperm egg-recognition system, the authors studied the distribution of VLA-6 integrin on the membrane of boar sperm throughout capacitation and following acrosome reaction, and analyzed intracellular Ca(2+) changes occurring in spermatozoa exposed to laminin. Immunofluorescent localisation of VLA-6 revealed a low proportion (nearly 22%) of positive cells in freshly ejaculated sperm, with integrin mainly concentrated in clustered spots. After 3 hr incubation most of the spermatozoa showed integrin molecules on the membrane, with three different labeling patterns: fluorescence localised on the edge of the acrosome (58.2 +/- 14.2% of the cells); fluorescence uniformly spread over the whole sperm head (5.0 +/- 1.9%) and finally fluorescence concentrated in clustered spots (7.6 +/- 5.6%), as recorded in freshly ejaculated sperm. Twenty-nine percent of cells did not show any distinct fluorescence. Following acrosome reaction sperm with fluorescence on the acrosomal region virtually disappeared and the proportion of unstained cells rose from 29.2 +/- 9.2 to 69.0 +/- 10.1%. Electron microscopy demonstrated that VLA-6 integrin was exclusively located on the sperm membrane of intact spermatozoa. Confocal analysis showed that laminin triggers distinct Ca(2+) raises, and that sperm exposed and kept in the presence of laminin fully retained their ability to rise intracellular Ca(2+) in response to zona pellucida proteins. These data indicate that boar sperm accumulate VLA-6 integrin on the membrane and concentrate it on the acrosomal region as capacitation progresses. Probably due to this compartmentalisation, sperm exposed to laminin experience a Ca(2+) raise that originates in the anterior sperm head where it is more adequate for the induction of acrosome reaction. Mol. Reprod. Dev. 59:322-329, 2001.     

Kinases, phosphatases and proteases during sperm capacitation

Fertilization is the process by which male and female haploid gametes (sperm and egg) unite to produce a genetically distinct individual. In mammals, fertilization involves a number of sequential steps, including sperm migration through the female genital tract, sperm penetration through the cumulus mass, sperm adhesion and binding to the zona pellucida, acrosome exocytosis, sperm penetration through the zona and fusion of the sperm and egg plasma membranes. However, freshly ejaculated sperm are not capable of fertilizing an oocyte. They must first undergo a series of biochemical and physiological changes, collectively known as capacitation, before acquiring fertilizing capabilities. Several molecules are required for successful capacitation and in vitro fertilization; these include bicarbonate, serum albumin (normally bovine serum albumin, BSA) and Ca(2+). Bicarbonate activates the sperm protein soluble adenylyl cyclase (SACY), which results in increased levels of cAMP and cAMP-dependent protein kinase (PKA) activation. The response to bicarbonate is fast and cAMP levels increase within 60?s followed by an increase in PKA activity. Several studies with an anti-phospho-PKA substrate antibody have demonstrated a rapid increase in protein phosphorylation in human, mouse and boar sperm. The target proteins of PKA are not known and the precise role of BSA during capacitation is unclear. Most of the studies provide support for the idea that BSA acts by removing cholesterol from the sperm. The loss of cholesterol has been suggested to affect the bilayer of the sperm plasma membrane making it more fusogenic. The relationship between cholesterol loss and the activation of the cAMP/PKA pathway is also unclear. During early stages of capacitation, Ca(2+) might be involved in the stimulation of SACY, although definitive proof is lacking. Protein tyrosine phosphorylation is another landmark of capacitation but occurs during the late stages of capacitation on a different time-scale from cAMP/PKA activation. Additionally, the tyrosine kinases present in sperm are not well characterized. Although protein phosphorylation depends upon the balanced action of protein kinases and protein phosphatase, we have even less information regarding the role of protein phosphatases during sperm capacitation. Over the last few years, several reports have pointed out that the ubiquitin-proteasome system might play a role during sperm capacitation, acrosome reaction and/or sperm-egg fusion. In the present review, we summarize the information regarding the role of protein kinases, phosphatases and the proteasome during sperm capacitation. Where appropriate, we give examples of the way that these molecules interact and regulate each other's activities.     

The interaction of living boar sperm and sperm plasma membrane vesicles with the porcine zona pellucida

Enzymological, morphological, and immunological methods were used to characterize further the interaction of noncapacitated boar spermatozoa with the porcine zona pellucida. Transmission electron microscopy showed that sperm usually bind to the zona over the head region of the cell. Only the plasma membrane is involved in this binding. Bound sperm will undergo the acrosome reaction when treated with calcium and the ionophore A23187. The ability of intact sperm to bind to porcine eggs in vitro and the ability of sperm plasma membrane vesicles to absorb univalent antibody to the sperm binding site for the zona were used to determine the effects of various physical, chemical, and enzymological treatments on the sperm binding sites. These sites were resistant to a number of enzymes including proteases and polysaccharidases, but were inactivated by heat and trichloroacetic acid. Binding sites on the zona were inactivated by extracts from small quantities of sperm. Binding was also blocked by Fab antibody to whole zonae absorbed to other swine tissue and by similarly absorbed Fab antibody to sperm plasma membranes. These data provide further support for the presence of zona recognition sites on the plasma membrane of noncapacitated boar sperm. The binding sites on the sperm plasma membrane do not appear to be peripheral membrane proteins nor major constituents of a surface glycocalyx.     

Equine sperm-oocyte interaction: the role of sperm surface hyaluronidase.

The plasma membrane over the sperm head of several mammalian species has been shown to express a glycerolphosphatidylinositol-linked hyaluronidase known as PH-20. This protein has been associated with the sperm's interaction with the oocyte cumulus matrix and zona pellucida. The characteristics of PH-20 in equine sperm have not been clearly defined. In this study, ejaculated gel-free semen from five stallions and epididymal sperm from isolated epididymis from 10 stallions was used to characterize the PH-20 activity in equine sperm. Affinity purified anti-equine PH-20 polyclonal antibody was used to immunodetect sperm surface-associated PH-20 and immunolabel whole sperm. The intracellular calcium indicator, Fluo-3, was used to assess sperm intracellular calcium. Stallion sperm express a surface-associated hyaluronidase localized to the posterior sperm head region in ejaculated sperm. Following in vitro capacitation and acrosomal exocytosis, the inner acrosomal membrane (IAM) displays intense hyaluronidase fluorescence suggesting that the IAM and hyaluronidase plays a significant role in zona penetration by sperm. Sperm incubated in hyaluronan (HA)-containing capacitation medium display an elevated intracellular calcium concentration (P<0.01) that is associated with translocation of PH-20 antigenic sites on the sperm surface in addition to increases in protein tyrosine phosphorylation. Caput- and cauda-derived sperm display developmentally unique PH-20 immunofluorescence expression patterns. These data suggest that the differential expression of PH-20 in ejaculated and epididymal sperm could be involved in cumulus penetration, sperm-egg recognition, and oolemmal fusion in this species.     

Evidence for specific binding of uncapacitated boar spermatozoa to porcine zonae pellucidae in vitro

Washed ejaculated boar sperm and sperm from the cauda epididymis bind to the zona pellucida of fixed porcine eggs in large numbers. Sperm incubated in the presence of dextran sulfate (8 K daltons or 500 K daltons) or fucoidan and then washed no longer bind to eggs. Other acid carbohydrates (heparin, chondroitin sulfates, inositol hexasulfate, carboxymethylcellulose) fail to block sperm-egg binding even when added directly to sperm-egg suspensions. Seminal plasma and the seminal vesicle secretion contain basic proteins which bind tightly to sperm and bind reversibly to eggs preventing sperm from binding to eggs. When dextran sulfate or fucoidan are mixed with the vesicular secretion, from which seminal plasma basic proteins originate (Hunt et al., '83), the secretion loses the capacity to prevent sperm from binding to eggs; this suggests that seminal vesicle proteins can bind to the same site on zonae as do sperm and thus seminal plasma may modify sperm-egg interactions. Corpus and cauda epididymal sperm also bind in large numbers to the zona pellucida of isolated eggs but high concentrations of caput sperm, which exhibit high motility in the presence of caffeine, bind only in few numbers. Thus a component that enhances sperm-zona binding is apparently formed on the plasma membranes of uncapacitated sperm during passage through the epididymis. This finding, and an earlier observation that antibodies raised against uncapacitated sperm plasma membranes block sperm-egg binding in vivo (Peterson et al., '83) suggest that this component may be involved in sperm zona interaction in vivo.     

Localization of tyrosine phosphorylated proteins in human sperm and relation to capacitation and zona pellucida binding

Mammalian sperm must undergo a process known as capacitation before fertilization can take place. A key intracellular event that occurs during capacitation is protein tyrosine phosphorylation. The objective of this study was to investigate and visualize protein tyrosine phosphorylation patterns in human sperm during capacitation and interaction with the zona pellucida. The presence of specific patterns was also assessed in relation to the fertilizing capacity of the spermatozoa after in vitro fertilization. Protein tyrosine phosphorylation was investigated by immunofluorescence. Phosphorylation increased significantly with capacitation and was localized mainly to the principal piece of human sperm. Following binding to the zona pellucida, the percentage of sperm with phosphotyrosine residues localized to both the neck and the principal piece was significantly higher in bound sperm than in capacitated sperm in suspension. When the percentage of principal piece-positive sperm present after capacitation was <7%, fertilization rates after in vitro fertilization were reduced. Different compartments of human spermatozoa undergo a specific sequence of phosphorylation during both capacitation and upon binding to the zona pellucida. Tyrosine phosphorylation in the principal and neck piece may be considered a prerequisite for fertilization in humans.     

Tracking diffusion of GM1 gangliosides and zona pellucida binding molecules in sperm plasma membranes following cholesterol efflux

The molecules on mammalian spermatozoa that mediate recognition and binding to the zona pellucida of the egg are still not understood. Current concepts favour their assembly into multimolecular complexes in the plasma membrane in response to cholesterol efflux, an important step during sperm capacitation. Here, we track in real time diffusion of cross-linked clusters containing zona-binding molecules and GM1 gangliosides in the plasma membrane of live boar spermatozoa before and after cholesterol reduction. Both GM1 gangliosides and zona-binding molecules partition into a low density Triton X100 resistant phase suggesting their association with lipid rafts. Initially, GM1 and zona-binding molecules localize to the apical ridge on the acrosome but following cholesterol efflux with methyl-β-cyclodextrin, clusters containing zona-binding molecules diffuse randomly over the acrosomal domain. Diffusing clusters of either type do not access the postacrosome. Spermatozoa agglutinated head-to-head show contact-induced coalescence of GM1 gangliosides (but not zona-binding molecules) suggestive of a specific mechanosensitive response. Thus, cholesterol efflux initiates diffusion (and possibly formation) of novel lipid raft-like structures containing zona-binding molecules over the sperm acrosome. We hypothesise that in combination with contact coalescence, these mechanisms concentrate important molecules to the appropriate site on the sperm surface to mediate zona binding.     

Influence of capacitation and fluids from the male and female genital tract on the zona binding ability of bull spermatozoa.

Before fertilization, inseminated spermatozoa acquire the ability to fertilize an egg, a phenomenon called capacitation. Bovine sperm capacitation is influenced by factors originating from both the male and female genital tract, and results in intracellular and membrane changes of the spermatozoa that facilitate the induction of the acrosome reaction. However, the effects of reproductive tract secretions and capacitation on the binding of spermatozoa to the zona pellucida have not been investigated. In this study, a sperm-egg binding assay was used to determine whether the ability of bull spermatozoa to bind to the zona pellucida was altered during in vitro capacitation by heparin or oviductal fluid, or by treatment of spermatozoa from the cauda epididymidis with accessory sex gland fluid. In addition, biotinylated solubilized zona pellucida proteins were used to visualize zona binding on spermatozoa. The ability of bull spermatozoa to bind to the zona pellucida was increased after both heparin and oviductal fluid induced in vitro capacitation. Exposure of spermatozoa from the cauda epididymidis to accessory sex gland fluid resulted in a direct increase in zona binding ability, followed by a further increase during capacitation in vitro. Binding of solubilized zona proteins was restricted to the acrosomal cap of bull spermatozoa. It is suggested that the observed increased ability of bull spermatozoa to bind to the zona pellucida enables optimal sperm-egg attachment, which also relates to the induction of the acrosome reaction by the zona pellucida. Thus, increased zona binding ability is likely to be an essential part of the process of capacitation.     

Protein tyrosine phosphorylation in sperm during gamete interaction in the mouse: the influence of glucose

A key intracellular event during capacitation is protein tyrosine phosphorylation, but its involvement during sperm interaction with the oocyte has not been investigated. Glucose is necessary to achieve fertilization and thus may have an influence on sperm protein tyrosine phosphorylation. The objectives of this study were to 1) visualize protein tyrosine phosphorylation patterns in sperm during capacitation and interaction with the oocyte and 2) determine the influence of glucose. Protein tyrosine phosphorylation was investigated by Western analysis and immunofluorescence. Protein tyrosine phosphorylation was increased during capacitation, and immunofluorescence revealed that zona binding and gamete fusion were correlated with an increase in tyrosine phosphorylation of proteins in the midpiece. During capacitation, the absence of glucose led to a delay in the appearance of protein tyrosine phosphorylation. Following binding to the zona pellucida and the oolemma, tyrosine phosphorylation in the flagellum was also delayed in the absence of glucose and resulted in a significant inhibition of the midpiece phosphorylation. The correlation between successful gamete fusion and the tyrosine phosphorylation of midpiece proteins suggests that the effect of glucose on sperm-oocyte interaction is mediated through regulation of protein tyrosine phosphorylation in a specific area of the fertilizing sperm.     

Bicarbonate Induces Membrane Reorganization and CBR1 and TRPV1 Endocannabinoid Receptor Migration in Lipid Microdomains in Capacitating Boar Spermatozoa

Mammalian spermatozoa acquire full fertilizing ability only after a morphofunctional maturation called "capacitation." During this process the high level of bicarbonate present within the upper female genital tract or in culture medium induces a marked reorganization of sperm membranes characterized by a biphasic behavior: In a few minutes, it promotes membrane phospholipid scrambling preliminary to the apical translocation of sterol that, 2-4?h later, enables spermatozoa to recognize zona pellucida after albumin-mediated cholesterol extraction. In the present research it was demonstrated that spermatozoa incubated with bicarbonate in protein-free media underwent a marked reorganization of lipid microdomains present in a detergent-resistant membrane fraction (DRM) isolated by ultracentrifugation on sucrose density gradient. In fact, bicarbonate exposed sperm (ES) cells, compared with ejaculated spermatozoa (nonexposed sperm [nES] cells), displayed an increase in protein DRM content and, in particular, in Cav-1 and CD55, markers of caveolae and lipid rafts, as well in acrosin-2, a marker of the outer acrosomal membrane (OAM). Moreover, the amount of certain proteins involved in capacitation, such as the endocannabinoid system receptors cannabinoid receptor type 1 (CBR1) and transient receptor potential cation channel 1 (TRPV1), increased in DRM obtained from ES. These data allow us to hypothesize that sperm membrane reorganization takes place even in the absence of extracellular proteins; that not only the plasma membrane but also the OAM participate in this process; and that important molecules playing a key role in inside-out signaling, such as the endocannbinoid receptors TRPV1 and CBR1, are involved in this event, with potentially important consequences on sperm function.     

猪精子中与卵透明带糖蛋白ZP3结合的蛋白质

依次经ＰＳＬ－Ｓｅｐｈａｒｏｓｅ亲和层析柱和纤维素ＣＭ－５２离子交换层析柱,从猪精子的ＣＨＡＰＳ抽提液分离得４个蛋白质组分。用固相透明带精蛋白结合试验（ＩＺＰＧＢＡ）检测;表明精子蛋白ＳＰ１和ＳＰ２具有结合透明带糖蛋白ＺＰ３的活性,ＳＰ２并显示凝集血球的活性。精子蛋白ＳＰ１与卵预温育明显抑制精卵结合,抑制活性与加入的精子蛋白的浓度呈正相关。用生物素标记的ＺＰ３和蛋白质印迹技术,证明ＳＰ１中的６８ｋＤ精子蛋白与ＺＰ３结合,提示６８ｋＤ精子蛋白参与精卵结合。     

Capacitation is associated with tyrosine phosphorylation and tyrosine kinase-like activity of pig sperm proteins

Capacitation represents the final maturational steps that render mammalian sperm competent to fertilize, either in vivo or in vitro. Capacitation is defined as a series of events that enables sperm to bind the oocyte and undergo the acrosome reaction in response to the zona pellucida. Although the molecular mechanisms involved are not fully understood, sperm protein phosphorylation is associated with capacitation. The hypothesis of this study is that protein tyrosine phosphorylation and kinase activity mediate capacitation of porcine sperm. Fresh sperm were incubated in noncapacitating or capacitating media for various times. Proteins were extracted with SDS, subjected to SDS-PAGE, and immunoblotted with an antiphosphotyrosine antibody. An M(r) 32 000 tyrosine-phosphorylated protein (designated as p32) appeared only when the sperm were incubated in capacitating medium and concomitant with capacitation as assessed by the ionophore-induced acrosome reaction. The p32 was soluble in Triton X-100. Fractionation of sperm proteins with Triton X-114 demonstrated that after capacitation, this tyrosine phosphoprotein is located in both the cytosol and the membrane. Enzyme renaturation of sperm proteins was conducted in gels with or without either poly glu:tyr (a tyrosine kinase substrate) or kemptide (a protein kinase A substrate). An M(r) 32 000 enzyme with kinase behavior was observed in all gels but was preferentially phosphorylated on tyrosine, as assessed by phosphorimagery and by thin layer chromotography to identify the phosphoamino acids. Indirect immunolocalization showed that the phosphotyrosine residues redistribute to the acrosome during capacitation, which is an appropriate location for a protein involved in the acquisition of fertility.