ELECTRON MICROSCOPIC OBSERVATIONS OF GUINEA PIG SPERMATOZOA PENETRATING EGGS IN VITRO*

Guinea pig ovarian oocytes matured in vitro were inseminated in vitro with capacitated, acrosome-reacted spermatozoa and sperm penetration through the zona pellucida and into the egg cytoplasm were examined. Sperm heads passing through the zona pellucida had already lost all their acrosomal elements except for the inner acrosomal membrane and the equatorial segment. It was often observed that the texture of the zona material around the sperm head was distorted, giving the impression that the zona pellucida was parted, at least partially, by a shearing force produced by the sperm head advancing through the zona. When eggs were freed from their zonae pellucidae and inseminated, the acrosome-reacted spermatozoa immediately bound to the egg surfaces and began to fuse with the eggs; whereas the spermatozoa with intact acrosomes failed to do so. Fusion began between the egg plasma membrane and the sperm plasma membrane at the central region of the sperm head. The anterior half of the sperm head was engulfed by the egg in a phagocytic fashion, while its posterior half was incorporated into the egg by a fussion between egg and sperm plasma membranes. Incorporation of the sperm tail into the egg was achieved by fusion between the sperm and egg plasma membranes.     

Generation of a mouse sperm membrane fraction with zona receptor activity.

To identify mouse sperm components involved in primary sperm binding to zonae pellucidae, a mouse sperm plasma membrane-enriched fraction was generated using a vortex method. The crude membrane fraction recovered after vortexing was resolved into three bands and a pellet by centrifugation on a discontinuous sucrose gradient. Ultrastructural analysis indicated that Bands 2 and 3 were composed predominantly of membranes, although Band 3 was contaminated with mitochondria; Band 1 and the gradient pellet contained insufficient material and were unsuitable for ultrastructural analysis. To determine where plasma membranes migrate in the gradient, sperm were labeled vectorially with 125I; subsequently, membrane fractions were analyzed by SDS-PAGE and autoradiography. Band 2 was enriched threefold in radiolabel when compared with Band 3. Examination of intact and vortexed sperm stained with regionally distributed anti-mouse sperm monoclonal antibodies revealed that vortexing removed anterior head plasma membrane preferentially. Bioactivity, defined as the ability to inhibit primary sperm binding to the zona pellucida in a concentration-dependent manner, was contained in the crude membrane fraction and Band 2 exclusively, with inhibition of 53% and 44%, respectively, at the maximum concentration tested. Band 3 exhibited no significant bioactivity. We conclude from these results that a plasma membrane-enriched fraction, Band 2, isolated from mouse cauda epididymal sperm, exhibits zona pellucida receptor activity.     

Isolation and partial characterization of the plasma membrane from human spermatozoa

Ejaculated human spermatozoa were subjected to nitrogen cavitation (600 psi for ten min) to remove the plasma membrane (PM). Electron microscopic examination of the cavitated cells revealed that 33% of the PM was removed from the sperm which includes both the head and tail regions. The released membrane was separated from the cavitated cells by centrifugation followed by a discontinuous sucrose density gradient centrifugation. A single membrane population was resolved at the 1.0 M sucrose interface. Examination of the isolated membranes by electron microscopy revealed vesicles of various sizes displaying unit membrane structures. Biochemical analysis of the isolated membranes showed a threefold enrichment in the surface membrane marker 5' nucleotidase and also suggested little contamination by enzymes from the cytosol (lactate dehydrogenase) or mitochondria (cytochrome oxidase). Analytical lipid analysis of the isolated membranes revealed a 26-fold enrichment in the distribution of cholesterol, an 11-fold enrichment of phospholipids, and a cholesterol:phospholipid molar ratio of 0.83. Also found was a twofold increase in glycosphingolipids which are ubiquitous components of PM in eukaryotic cells. These data indicate that the membrane vesicles isolated after nitrogen cavitation are primarily PM.     

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.     

Sperm-egg interactions in the mouse: sequence of events and induction of the acrosome reaction by a zona pellucida glycoprotein

In this investigation, the interaction of mouse sperm with unfertilized eggs and embryos, solubilized zonae pellucidae isolated from eggs and embryos, and purified zona pellucida glycoproteins ZP1, 2, and 3 (J. D. Bleil, and P. M. Wassarman, (1980b) Dev. Biol. 76, 185-202) has been examined in vitro by light and electron microscopy. The experiments described were carried out in order to determine the temporal sequence of events during sperm-egg interaction in vitro and to identify the component(s) of zonae pellucidae responsible for inducing mouse sperm to undergo the acrosome reaction. "Pulse-chase" analysis of the sequence of sperm-egg interactions revealed that mouse sperm first "attach" loosely and then "bind" tightly to the unfertilized egg's zona pellucida. Binding of sperm to egg zonae pellucidae is followed by induction of the acrosome reaction. Induction of the acrosome reaction can be mediated by the zona pellucida, since solubilized zonae pellucidae isolated from unfertilized eggs were found to be just as effective as the calcium ionophore A23187 in inducing the reaction in vitro. Furthermore, ZP3 purified from zonae pellucidae isolated from unfertilized eggs, but not from two-cell embryos, was also just as effective as either solubilized zonae pellucidae from eggs or ionophore A23187 in inducing the acrosome reaction. ZP1 and 2 from both eggs and embryos, and ZP3 from embryos, had little effect on the extent of the acrosome reaction as compared to control samples. The results of these and other experiments (J. D. Bleil, and P. M. Wassarman, (1980b) Cell 20, 873-882) strongly suggest that, at least in vitro, mouse sperm recognize and bind to ZP3 of egg zonae pellucidae, and that such binding leads to the induction of the acrosome reaction. Modification of ZP3 following fertilization eliminates sperm binding to zonae pellucidae and, consequently, induction of the acrosome reaction is precluded.     

Mammalian sperm-egg interaction: fertilization of mouse eggs triggers modification of the major zona pellucida glycoprotein, ZP2

Sperm-egg interaction in mammals is initiated by binding of sperm to the zona pellucida, an acellular coat completely surrounding the plasma membrane of unfertilized eggs and preimplantation embryos. Fertilization results in transformation of the zona pellucida (“zona reaction”), such that additional sperm are unable to bind to the zona pellucida of fertilized eggs and embryos, and sperm that had partially penetrated the zona pellucida of eggs prior to fertilization are prevented from further penetration after fertilization. The failure of sperm to bind to fertilized mouse eggs and embryos is attributable to modification of the sperm receptor, ZP3, an 83,000-molecular weight glycoprotein present in zonae pellucidae isolated from both eggs and embryos [Bleil, J. D., and Wassarman, P. M. (1980). Cell, 20, 873–882]. In this investigation, ZP2, the major glycoprotein found in mouse zonae pellucidae [Bleil, J. D., and Wassarman, P. M. (1980). Develop. Biol., 76, 185–202] was analyzed by gel electrophoresis under a variety of conditions in order to determine whether or not it undergoes modification as a result of fertilization. Under nonreducing conditions, ZP2 present in solubilized zonae pellucidae that were isolated individually from mouse oocytes, eggs, and embryos migrates on SDS-polyacrylamide gels with an apparent molecular weight of 120,000. However, under reducing conditions, ZP2 from embryos, but not from oocytes or unfertilized eggs, migrates with an apparent molecular weight of 90,000 and has been designated ZP2_f. The evidence presented suggests that modification of ZP2 following fertilization involves proteolysis of the glycoprotein, but that intramolecular disulfide bonds prevent the release of peptide fragments. It is shown that the same change in ZP2 can be generated in vitro by artificial activation of unfertilized mouse eggs with the calcium ionophore A23187, thus eliminating the possibility that a sperm component is responsible for the modification of ZP2 following fertilization. These results suggest that some of the changes in the biochemical and biological properties of zonae pellucidae, observed following fertilization or activation of mouse eggs, result from modification of the major zona pellucida glycoprotein, ZP2.     

Reorganization of mouse sperm lipid rafts by capacitation

One of the hallmarks of mammalian sperm capacitation is the loss of cholesterol from the plasma membrane. Cholesterol has been associated with the formation of detergent insoluble membrane microdomains in many cell types, and sperm from several mammalian species have been shown to contain detergent-resistant membranes (DRMs). The change in cholesterol composition of the sperm plasma membrane during capacitation raises the question of whether the contents of DRMs are altered during this process. In this study, we investigated changes in protein composition of DRMs isolated from uncapacitated or capacitated mouse sperm. TX-100 insoluble membranes were fractionated by sucrose flotation gradient centrifugation and analyzed by Western and lectin blotting, and capacitation-related differences in protein composition were identified. Following capacitation, the detergent insoluble fractions moved to lighter positions on the sucrose gradients, reflecting a global change in density or composition. We identified several individual proteins that either became enriched or depleted in DRM fractions following capacitation. These data suggest that the physiological changes in sperm motility, ability to penetrate the zona pellucida (ZP), ZP responsiveness, and other capacitation-dependent changes, may be due in part to a functional reorganization of plasma membrane microdomains.     

Mouse gamete interactions during fertilization in vitro. Chlortetracycline as a fluorescent probe for the mouse sperm acrosome reaction

We have developed an assay for detecting the acrosome reaction in mouse sperm using chlortetracycline (CTC) as a fluorescent probe. Sperm known to be intact with nonreacted acrosomes show CTC fluorescence in the presence of Ca2+ over the anterior portion of the sperm head on the plasma membrane covering the acrosome. Sperm which have undergone the acrosome reaction do not show fluorescence on the sperm head. Mouse sperm bind to zonae pellucidae of cumulus-free eggs in vitro in a Ca2+-dependent reaction; these sperm are intact by the CTC assay. Intact sperm bind to mechanically isolated zonae under the same conditions: the egg is apparently unnecessary for this inital reaction. Sperm suspensions, in which greater than 50% of the motile population had completed the acrosome reaction, were prepared by incubation in hyperosmolal medium followed by treatment with the divalent cation ionophore, A23187. Cumulus-free eggs challenged with such sperm suspensions preferentially bind intact sperm; acrosome-reacted sperm do not bind. We conclude that the plasma membrane of the mouse sperm is responsible for recognition of the egg's zona pellucida and that the obligatory sequence of reactions leading to fusion of mouse gametes is binding of the intact sperm to the zona pellucida, followed by the acrosome reaction at the zona surface, followed in turn by sperm penetration of the zona.     

Regulation of calcium content in bovine spermatozoa

Plasma membrane vesicles isolated from bovine epididymal and ejaculated spermatozoa have widely different capabilities for transporting Ca2+. Spermatozoa were ruptured by nitrogen cavitation, and the plasma membrane fraction was harvested after low speed and sucrose gradient centrifugation; purity was assessed by marker enzyme analyses, electron microscopy, and sedimentation properties. Plasma membrane vesicles isolated from epididymal sperm accumulate Ca2+ passively at a faster rate and to a greater extent than vesicles prepared from ejaculated sperm. Ca2+ transport across bovine sperm plasma membranes is an ATP-independent, Na+-dependent process that obligatorily exchanges intravesicular Na+ for external Ca2+. The rate of Na+/Ca2+ exchange is significantly lower in ejaculated sperm vesicles than in those of epididymal sperm. Bovine plasma membranes contain little or no Ca2+-dependent ATPase activity. It is suggested that, at the time of ejaculation, calcium flux into bovine sperm is prevented by the interaction of the plasma membrane with putative factors in seminal fluid that specifically interfere with Na+/Ca2+ exchange. We have isolated a protein from seminal plasma that prevents calcium accumulation by bovine epididymal sperm (Rufo, G. A., Jr., Singh, J. P., Babcock, D. F., and Lardy, H. A. (1982) J. Biol. Chem. 257, 4627-4632). A protein with properties resembling those of the seminal calcium transport inhibitor is found on the membrane vesicles from ejaculated sperm but not on membranes from epididymal sperm. We conclude that this protein binds strongly to the plasma membrane of bovine sperm and is responsible for preventing calcium uptake by ejaculated sperm.     

Characterization of human sperm plasma membrane: glycolipids and polypeptides

The plasma membranes from ejaculated human spermatozoa were removed by nitrogen cavitation (600 PSI for 10 min) and isolated by centrifugation followed by a discontinuous sucrose density gradient centrifugation. Glycolipid analysis of the plasma membrane revealed a three-fold enrichment in gangliosides: GM3 and GD1a/GD1b and neutral glycolipids: globoside and sulfatide as compared to that of whole human sperm. Two dimensional electrophoresis of human sperm plasma membranes revealed about 75 polypeptides. Several of these polypeptides were similar in migration and in display of shape and color to that found in boar sperm plasma membranes.     

An ultrastructural study of epididymal mouse spermatozoa binding to zonae pellucidae in vitro: sequential relationship to the acrosome reaction

Mouse sperm bind to the zona pellucida of the egg prior to penetration of the zona and entry into the perivitelline space. The question then arises: when does the acrosome reaction occur relative to these processes? An ultrastructural study of mouse epididymal sperm bound to the surface of the zona and in the privitelline space was undertaken to clarify this point. Cumulus-free mouse eggs were inseminated in either a complete defined culture medium capable of supporting in vitro fertilization or in Tris/NaCl buffer containing Ca+2. Both media support sperm binding to the zona to the same extent; binding is complete in 15 minutes. Unbound sperm were removed by a step gradient density centrifugation to yield a preparation of eggs with sperm firmly bound. All sperm in the perivitelline space had undergone the acrosome reaction. Sperm bound at the surface of the zonae pellucidae of eggs recovered at ten minutes after insemination all had intact acrosomes. At 40 minutes after insemination, half of the sperm were intact; the other half were in the initial stages of the acrosome reaction. At 90 minutes after insemination, 12% of the sperm had undergone the full acrosome reaction and were starting to penetrate the zona; of the balance, half were in various stages of the acrosome reaction, while half were still intact. These findings support the hypothesis that the sequence of the early reactions leading to fertilization in the mouse is: intact sperm binding to zona; acrosome reaction at the zona surface; penetration of the zona.     

Structure and function of the zona pellucida: Identification and characterization of the proteins of the mouse oocyte's zona pellucida

The zona pellucida is an acellular coat which surrounds the plasma membrane of fully grown mammalian oocytes and which performs a variety of important functions during oogenesis, fertilization, and preimplantation development. In this investigation the proteins of the mouse oocyte's zona pellucida have been identified and characterized by using zonae pellucidae isolated individually from fully grown oocytes with mouth-operated micropipets. Various morphological and biochemical criteria were employed to assess the purity of the isolated zonae pellucidae and, in most cases, they were found to be virtually free of contamination by other oocyte proteins. It was determined that each zona pellucida contains 4.8 ng of protein, which represents 80% or more of the dry weight of the zona pellucida and about 17% of the oocyte's total protein. Electrophoretic analyses of as few as five isolated zonae pellucidae treated with diazotized [¹²⁵I]iodosulfanilic acid revealed the presence of only three radiolabeled proteins, designated ZP1, ZP2, and ZP3. The same three proteins were identified by Coomassie blue staining when large numbers of isolated zonae pellucidae (approximately 750) were subjected to SDS-polyacrylamide gel electrophoresis. These three proteins migrate as broad bands on SDS-polyacrylamide gels, consistent with their being glycoproteins, with apparent molecular weights of 200,000 (ZP1), 120,000 (ZP2), and 83,000 (ZP3). The same proteins were radiolabeled when intact oocytes were treated with diazotized [¹²⁵I]iodosulfanilic acid, a reagent which does not penetrate the oocyte's plasma membrane, or when isolated zonae pellucidae were treated with ³H-labeled 1-dimethylaminonaphthalene-5-sulfonyl chloride. Results of amino acid analysis and high-resolution two-dimensional electrophoresis of the individual proteins suggest that each protein represents a unique polypeptide chain. The proteins ZP1, ZP2, and ZP3 represent about 36, 47, and 17%, respectively, of the total protein of the zona pellucida. In the presence of reducing agents which cause dissolution of the zona pellucida, ZP1 is converted into a species which migrates with an apparent molecular weight of 130,000, suggesting that it exists as an oligomer, stabilized by disulfide bonds, in the unreduced state. The results of these experiments are discussed in terms of the properties of the zona pellucida before and after fertilization and are compared with results obtained using vitelline envelopes of eggs from nonmammalian animal species.     

Mechanism of sperm-binding inhibition by anti-zona antisera

Mouse zonae pellucidae contain receptors for sperm throughout their structure since spermatozoa will bind to both the inner and outer surfaces of isolated zona fragments. Antibodies raised against mechanically isolated mouse zonae pellucidae were only capable of suppressing sperm binding to the outer zona surface in association with the formation of a precipitate in this region. These results indicate that such antisera are not capable of interacting directly with the sperm receptors on the zona pellucida but rely upon the less efficient mechanism of steric hindrance to prevent sperm from gaining access to the sperm binding sites.     

Comparison of embryonic developmental competence of mouse oocytes grown with and without serum.

The first objective of this study was to determine whether oocyte growth in serum-free medium affects the solubility of the zona pellucida to alpha-chymotrypsin digestion, which is an index of zona pellucida "hardening" and reflects the potential penetrability of the zona pellucida by sperm. Oocyte-granulosa cell complexes were isolated from the preantral follicles of 12-day-old mice and cultured for 10 days in medium containing 5% fetal bovine serum (FBS) or in serum-free medium. The zonae pellucidae of oocytes grown in serum-free medium were four times as hard as freshly isolated germinal vesicle (GV)-stage oocytes grown in vivo or oocytes grown in vitro in FBS-containing medium. The hardening of the zonae pellucidae of oocytes grown in serum-free medium was prevented by addition of fetuin. The second objective was to compare the competence to undergo embryogenesis of oocytes that grew in serum-free vs. FBS-containing medium. Approximately 70% of the oocytes underwent maturation regardless of whether the medium was serum-free or contained FBS. Of the mature ova grown in medium containing FBS, 53% cleaved to the two-cell stage after insemination compared with only 6% of the ova grown in serum-free medium. Addition of fetuin to the serum-free medium used for oocyte growth increased the frequency of cleavage to the two-cell stage. Of the embryos derived from oocytes that grew in FBS-containing medium, 70% completed the two-cell stage to blastocyst transition.(ABSTRACT TRUNCATED AT 250 WORDS)     

Localization of zona pellucida binding sites on rabbit spermatozoa and induction of the acrosome reaction by solubilized zonae

The binding of mammalian spermatozoa to the egg's extracellular coat, the zona pellucida, is a complex process which culminates in species-specific penetration of the sperm to the egg plasma membrane. To investigate where on the spermatozoon's surface the zona binding sites are located, whole rabbit zonae were labeled with FITC, heat solubilized and used to observe the surface binding patterns on live spermatozoa. Before the acrosome reaction the zona binding sites are located either over the entire head as well as the middle piece or alternatively in patches along the apical ridge of the head. After the acrosome reaction there is a 29% loss of fluorescence and the zona binding sites are present in the posterior aspect of the acrosomal region, the anterior postacrosomal region and the middle piece. These results demonstrate the presence of zona binding sites after the acrosome reaction which would account for the sperm's ability to remain bound to the zona after the acrosome reaction. Further, we report for the first time that solubilized rabbit zonae pellucidae will induce the acrosome reaction in in vitro capacitated rabbit sperm whereas solubilized pig zonae pellucidae will not. Since rabbit sperm bind pig zonae, the induction and specificity of the physiological acrosome reaction must reside in the affinity of the binding rather than the binding itself.     

Isolation of cellular membranes from rat mast cells

Large amounts of membranes enriched either in perigranular membranes or in plasma membranes have been successfully isolated from rat peritoneal mast cells. A cycle consisting of a single sonication pulse to disrupt the mast cells followed by centrifugation to separate the released granules was repeated until 90% of the mast cells were disrupted. This technique resulted in a high yield of intact granules since the released granules were only exposed to the single sonication pulse. The intact granules were separated from plasma membrane fragments by centrifugation through a Percoll gradient. The perigranular membranes were then obtained by osmotic lysis of the purified intact granules. The plasma membrane fraction was enriched 4.5-fold (range, 4.1-6.1) in 5'-nucleotidase activity, a plasma membrane marker enzyme. No suitable marker enzyme activity was found for the perigranular membrane fraction. An important aspect of this procedure is its potential for obtaining both a plasma and perigranular membrane preparation in high yield and purity from the same mast cell preparation.     

OBSERVATIONS ON SPERM PENETRATION IN THE RAT

The structural aspects of sperm penetration in the rat egg were investigated by electron microscopy. Eggs were recovered at intervals between 8 and 10:30 A.M. from females which had mated during the previous night. The oviducts were flushed with hyaluronidase and the eggs transferred into a 2 per cent osmium tetroxide solution, buffered at pH 7.8. After fixation, the eggs were mounted individually in agar, dehydrated in ethyl alcohol, and embedded in butyl-methyl methacrylate (3:1). The sperm penetrating the egg is covered by a plasma membrane which is present only on the side facing toward the zona pellucida; no membrane is visible on the side facing toward the vitellus. The sperm plasma membrane becomes continuous with the egg plasma membrane and forms a deep fold around the entering sperm. Cross-sections through the sperm midpiece in the perivitelline space show an intact plasma membrane. At the place of entrance, the plasma membrane of the sperm appears to fuse with the egg plasma membrane. After the sperm has penetrated the vitellus, it has no plasma membrane at all. The nuclear membrane is also absent. These observations suggest a new hypothesis for sperm penetration. After the sperm has come to lie on the plasma membrane of the egg, the egg and sperm plasma membranes rupture and then fuse with one another to form a continuous cell membrane over the egg and the outer surface of the sperm. As a result the sperm comes to lie inside the vitellus, leaving its own plasma membrane incorporated into the egg membrane at the surface of the egg.     

Ultrastructural localization of lectin-binding sites on the zonae pellucidae and plasma membranes of mammalian eggs

Receptors for Ricinus communis agglutinin I (RCAI), concanavalin A (Con A), and wheat germ agglutinin (WGA) were localized on the zonae pellucidae and plasma membranes of hamster, mouse, and rat eggs with ferritin-lectin conjugates. Intact eggs labeled with the ferritin conjugates showed dense concentrations of RCAI and WGA receptors in the outermost regions of their zonae pellucidae and sparse distributions of Con A receptors throughout the zonae. Ferritin-lectin labeling was specific, since inhibitory saccharides effectively blocked labeling. The asymmetric density of RCAI receptors across the zona was confirmed by ferritin-RCAI and fluorescein-RCAI labeling of mechanically isolated zonae pellucidae, indicating that the RCAI-binding sites are more densely distributed in the exterior zona regions. Plasma membranes of rodent eggs contained RCAI, WGA, and Con A receptors. These receptors were found to be more or less randomly distributed on surfaces of aldehyde-fixed eggs or on eggs labeled near 0 degrees C. However, eggs incubated at 25 degrees C showed aggregated WGA- and Con A-binding site distributions on their plasma membranes. This indicates that lectin- induced receptor redistribution occurs at this temperature. The possibility that plasma membrane receptor mobility is a requirement for sperm-egg fusion is discussed.     

Capacitation dependent activation of tyrosine phosphorylation generates two sperm head plasma membrane proteins with high primary binding affinity for the zona pellucida

The recognition and binding of sperm cells to the zona pellucida (the extracellular matrix of the oocyte) are essential for fertilization and are believed to be species specific. Freshly ejaculated sperm cells do not bind to the zona pellucida. Physiologically this interaction is initiated after sperm activation in the female genital tract (capacitation) via a yet unknown mechanism, resulting in the binding of a receptor in the apical sperm plasma membrane to the zona pellucida. In order to mimic this biochemically, we isolated zona pellucida fragments from gilt ovaries to prepare an affinity column with the intact zona pellucida structure and loaded this column with solubilized apical plasma membranes of boar sperm cells before and after in vitro capacitation. With this technique we demonstrated that two plasma membrane proteins of capacitated boar sperm cells showed high affinity for zona pellucida fragments. Further analysis showed that these proteins were tyrosine phosphorylated. Plasma membrane proteins from freshly ejaculated sperm cells did not exhibit any zona pellucida binding proteins, likely because these proteins were not tyrosine phosphorylated.     

Isolation of the outer acrosomal membrane from bull sperm.

A procedure is described for subcellular fractionation of bull sperm which allows the isolation of outer acrosomal membrane without the use of detergent. After washing to remove seminal plasma contaminants, the acrosomal membrane is removed by homogenization and separated on a two-step sucrose gradient. The isolated membranes have been characterized by light and electron microscopy and enzyme analysis. While the acrosomal enzymes hyaluronidase and acrosin are bound to the isolated membranes, they represent only a small percentage of the total activity and therefore do not provide reliable marker enzymes for this fraction. Subcellular fractionation of sperm also yields information on the solubility of acrosomal enzymes. Two types of acrosomal enzymes have been identified on the basis of their distribution in gradient fractions. Both alpha-fucosidase and beta-N-acetyl glucosaminidase are concentrated in the soluble fraction of the gradient. In contrast, over 70% of the acrosin and hyaluronidase activity remains associated with the sperm pellet. These differences in solubility of these enzymes may reflect differences in their function in fertilization.