Properties of exogenously added GPI-anchored proteins following their incorporation into cells.

Isolated glycosylphosphatidylinositol (GPI)-anchored proteins, when added to cells in vitro, incorporate into their surface membranes and, once incorporated, exert their native functions. Virtually any protein of interest, if expressed as a GPI-reanchored derivative, can be modified to acquire this capacity. Such transfer of proteins directly to cells, termed "protein engineering" or "painting" constitutes an alternative to conventional gene transfer for manipulating cell surface composition that has many potential applications. Previous studies with incorporated GPI-anchored proteins have focused almost entirely on their extracellular functions. In this study, biotinylated human erythrocyte (E(hu)) decay accelerating factor, E(hu) acetylcholinesterase, and GPI-reanchored murine B7-1 and B7-2 were used as GPI-anchored reporters to characterize their plasma membrane organization and cell signalling properties following addition to Hela or Chinese hamster ovary cells. For each reporter, three types of cell-association were documented; (1) nonphysiological attachment and/or incomplete insertion, (2) uncomplexed membrane integration, and (3) organization into TX-100-resistant microdomains. Transit from the first two compartments into the third, i.e., microdomains, progressed slowly, continuing even after 24 to 36 h and was associated with the acquisition of cell signalling capacity. All four reporters, incorporated in two different detergents, behaved similarly. When organized in microdomains, caveolin and other GPI proteins co-isolated with the incorporated reporter. These results have implications for protein engineering of cells in general, and in particular, for cells such as modified tumor cell immunogens administered to patients for therapeutic purposes.     

Identification of a novel GPI-anchored CRISP glycoprotein,MAK248, located on the posterior head and equatorial segment of cynomolgus macaque sperm

To identify a sperm-surface component that is highly antigenic, we immunized female cynomolgus macaques with glycosylphosphatidylinositol (GPI)-anchored sperm surface proteins that were released following treatment with phosphatidylinositol-specific phospholipase C (PI-PLC). Five different adjuvants were used in combination with the PI-PLC-released proteins, and three of these proteins (24, 48, and 53 kDa) were shown to be potent antigens for immunization of female monkeys. The 53 kDa protein was found to be a surface coating protein and not a GPI-anchored protein. Polyclonal antibodies to the 24 kDa protein and the 48 kDa protein were produced in rabbits. The two antibodies recognized both proteins on Western blots. The same rabbit antibodies recognized 28, 18, and 10 kDa bands on a Western blot of chemically reduced PI-PLC-released proteins, suggesting that the 48 kDa protein is a dimer of the 24 kDa protein, which we refer to as MAK248. Rabbit polyclonal antibodies developed to reduced fragments of the 24 kDa protein showed that the 18 and 10 kDa bands are proteolytic peptide fragments of the 24 kDa protein. Screening of tissues from male macaques showed that MAK248 is expressed only in the epididymis. Microsequencing of two proteolytic fragments of the 18 kDa component showed 100% amino acid homology to a 233 deduced amino acid sequence previously identified in human testes genome. Antibodies to MAK248 recognized a 24 kDa protein released from human sperm exposed to PI-PLC. Antibodies to MAK248 recognized the equatorial segment and posterior head regions of capacitated cynomolgus macaque sperm. Structural analysis suggests that MAK248 is a novel CRISP protein and a member of the CAP (CRISP, Ag 5, PR-1) family of proteins. Based on amino acid sequence homology, it is possible that MAK248 functions as a protease inhibitor.     

Observations on the acrosome reaction of human sperm in vitro

Human sperm were incubated in vitro in serum or the defined medium TMPA and were periodically assessed for acrosome reactions using two new methods of assay. The first method, FITC-RCA labeling, was previously shown to be valid for estimating the percentage of normal acrosome reactions of human sperm. The second method, a triple staining technique, is shown in this study to give results comparable to those obtained with FITC-RCA labeling. The percentage of acrosome-reacted sperm was determined at 0, 2.5, 5, and 7 hr of incubation. In both media, some sperm had reacted by 2.5 hr; a maximum percentage of reactions occurred between 5 and 7 hr. The maximum percentage never exceeded 20–25%, which represents only one-third of the live sperm, ie, those potentially able to undergo normal acrosome reactions. It will be important in future studies to determine if this low-peak percentage is due to the fact that: (1) Commonly used culture media are suboptimal or (2) only about 25% of the sperm in a human ejaculate are capable of undergoing normal acrosome reactions.     

Computational approach for identification and characterization of GPI-anchored peptides in proteomics experiments

Genes that encode glycosylphosphatidylinositol anchored proteins (GPI-APs) constitute an estimated 1-2% of eukaryote genomes. Current computational methods for the prediction of GPI-APs are sensitive and specific; however, the analysis of the processing site (omega- or omega-site) of GPI-APs is still challenging. Only 10% of the proteins that are annotated as GPI-APs have the omega-site experimentally verified. We describe an integrated computational and experimental proteomics approach for the identification and characterization of GPI-APs that provides the means to identify GPI-APs and the derived GPI-anchored peptides in LC-MS/MS data sets. The method takes advantage of sequence features of GPI-APs and the known core structure of the GPI-anchor. The first stage of the analysis encompasses LC-MS/MS based protein identification. The second stage involves prediction of the processing sites of the identified GPI-APs and prediction of the corresponding terminal tryptic peptides. The third stage calculates possible GPI structures on the peptides from stage two. The fourth stage calculates the scores by comparing the theoretical spectra of the predicted GPI-peptides against the observed MS/MS spectra. Automated identification of C-terminal GPI-peptides from porcine membrane dipeptidase, folate receptor and CD59 in complex LC-MS/MS data sets demonstrates the sensitivity and specificity of this integrated computational and experimental approach.     

Implication of cAMP during porcine sperm capacitation and protein tyrosine phosphorylation

Second messengers are involved in sperm fertilizing potential, as both motility and the acrosome reaction are influenced by cAMP. Moreover, the activity of cyclic nucleotides is implicated in the appearance of tyrosine phosphorylated sperm proteins, which is associated with capacitation in the mammalian spermatozoa. Nevertheless, the involvement of the cAMP/protein kinase A (PK-A) pathway during pig sperm capacitation may be different from that observed in other mammals. The objective of the present study was to clarify the cAMP/PK-A pathway during the capacitation of porcine spermatozoa and to evaluate this impact on the p32 sperm tyrosine phosphoprotein appearance. The presence of p32 was assessed after incubating fresh pig sperm with IBMX/db-cAMP, H-89, a PK-A inhibitor or bistyrphostin, a tyrosine kinase inhibitor, in capacitating (CM) or non-capacitating conditions (NCM) by immunoblotting SDS-extracted and separated sperm proteins using an anti-phosphotyrosine antibody. When pig spermatozoa were incubated in CM supplemented with H-89 (50 microM) or bistyrphostin (1.2 microM), capacitation decreased significantly (P < 0.001). The p32 sperm tyrosine phosphoprotein, previously shown to be associated with capacitation of porcine sperm though not necessarily an end point of this phenomenon, was not modulated by IBMX/db-cAMP (100 microM/1 mM), H-89 (50 microM) nor bistyrphostin (1.2 microM). Our results indicate, therefore, that pig sperm are regulated somewhat differently than as described for other mammals, because although the cAMP/PK-A and tyrosine kinase pathways are involved in capacitation, they do not influence the appearance of p32.     

Possible involvement of CD81 in acrosome reaction of sperm in mice

Tetraspanin CD81 is closely homologous in amino acid sequence with CD9. CD9 is well known to be involved in sperm-egg fusion, and CD81 has also been reported to be involved in membrane fusion events. However, the function of CD81 as well as that of CD9 in membrane fusion remains unclear. Here, we report that disruption of the mouse CD81 gene led to a reduction in the fecundity of female mice, and CD81-/- eggs had impaired ability to fuse with sperm. Furthermore, we demonstrated that when CD81-/- eggs were incubated with sperm, some of the sperm that penetrated into the perivitelline space of CD81-/- eggs had not yet undergone the acrosome reaction, indicating that the impaired fusibility of CD81-/- eggs may be in part caused by failure of the acrosome reaction of sperm. In addition, we showed that CD81 was highly expressed in granulosa cells, somatic cells that surround oocytes. Our observations suggest that there is an interaction between sperm and CD81 on somatic cells surrounding eggs before the direct interaction of sperm and eggs. Our results may provide new clues for clarifying the cellular mechanism of the acrosome reaction, which is required for sperm-egg fusion.     

Ultrastructural mapping of a sperm plasma membrane autoantigen before and after the acrosome reaction

The rabbit sperm plasma membrane autoantigen, RSA, is a zona binding protein that binds the spermatozoon to the zona pellucida both before and after the acrosome reaction. In the present study rabbit spermatozoa undergoing the acrosome reaction in vitro are described and monospecific polyclonal mouse anti-RSA and protein A-gold label is used with the label-fracture technique (Pinto de Silva and Kan, J Cell Biol, 99:1156–1161, 1984) to map the location of RSA at the ultrastructural level before and after the acrosome reaction. RSA is most concentrated in the plasma membrane over the postacrosomal-equatorial region border. The label appears to cluster over the anterior aspects of the postacrosomal region's tooth-like projections. Following the acrosome reaction, RSA is still present in the postacrosomal region and often appears clustered in the medial aspects of the equatorial region.     

Immunolocalization of bovine sperm protease BSp120 by light and electron microscopy during capacitation and the acrosome reaction: its role in in vitro fertilization

Mammalian fertilization involves various steps in which the participation of specific enzymes has been demonstrated by numerous studies. Acrosin is one of the most widely acrosomal protease in mammalian spermatozoa studied, including bovine; however, other proteases have also been described. A new trypsin-like serine protease named bovine serine protease of 120 kDa (BSp120) and its pre-cursor BSp66 (66 kDa) were identified in bovine spermatozoa. Cytological and ultrastructural immunolocalization studies on BSp120 were performed in live and fixed cells. Immunoflorescence assays with specific polyclonal antibodies revealed localization of BSp120 on the sperm head, with a signal homogeneously distributed over the acrosome resembling a horseshoe. After the acrosome reaction, sperm showed a patchy pattern in the acrosomal cap. Immune electron microscopy analysis indicated that BSp120 is located over the head plasma membrane of capacitated spermatozoa and acrosome reacting spermatozoa. To assess BSp120 function in sperm-oocyte interaction, in vitro fertilization studies were conducted. Oocytes were incubated with spermatozoa pre-treated with anti-BSp120, anti-guinea pig acrosin, and anti-BSp120 plus anti-guinea pig acrosin. Pre-treatment of bovine spermatozoa with antibodies towards each protein did not significantly modify fertilization rates. However, when both anti-acrosin and anti-BSp120 antibodies were simultaneously added, there was a significant decrease in the fertilization rate, suggesting that both enzymes may be required for fertilization. Altogether, the results from the present study described the localization of BSp120 over the acrosome of bovine sperm, and suggest its involvement in fertilization.     

Zona-free sperm penetration assay and inducers of the acrosome reaction: A model for sperm microinjection under the zona pellucida

In order to minimize the percentage of false-negative results in the zona-free sperm penetration assay (SPA), a wide range of substances and/or physical agents capable of inducing the acrosome reaction (AR) have been incorporated in the incubation medium. These agents can also be used for treatment of severe male infertility using the technique of sperm microinjection under the zona pellucida (SMUZ). In the present review, the percentages of acrosome-reacted spermatozoa induced by several physiological, biochemical or physical agents published in the literature are compared in order to find the most efficient method(s) of inducing the AR In human sperm as a previous requirement for optimizing the technique of SMUZ. A working estimate of the level of efficiency of a given AR inducer is calculated by adding up its range score in each of three different arrangements from the highest to the lowest value of percentages of AR and differences in percentages of AR and penetration indexes between treated and control groups in SPA. The agents able to induce the AR by nonphysiological (electropermeabilization, lysophosphatidyl choline, and freezing-thawing) have better positions in this hierarchical system than those ones which require the active participation of sperm membrane receptors or second messenger systems (progesterone, zona pellucida, and stimulators of protein kinase A). Electropermeabilization appears to be the most efficient AR inducer. However, more possibilities need to be explored to enhance the relatively low percentages of acrosome-reacted spermatozoa shown by infertile men. © 1993 Wiley-Liss, Inc.     

Evidence for sequential deployment of secretory enzymes during the normal acrosome reaction of guinea pig sperm in vitro

Experiments were conducted to determine if acrosomal enzymes are released simultaneously or in sequence during the normal acrosome reaction. Epididymal guinea pig sperm were incubated in a chemically defined, calcium-containing medium which supports normal acrosome reactions within 4–5 hours at 37°C. The sperm suspensions were monitored for motility, normal acrosome reactions, and false acrosome reactions during in vitro incubation. At specified time intervals, the sperm were separated from the incubation medium by centrifugation, and the distribution of dipeptidyl peptidase (DPP II) and acrosin activity was determined by biochemically assaying the hydrolysis of trialanine and N-benzoyl-L-arginine ethyl ester (BAEE), respectively. When calcium was present, there was a significant increase in DPP II activity in the supernatants by 1 hour of incubation and a slight decline at later time points. This release was not correlated with false or normal acrosome reactions (loss of the acrosomal cap) monitored by phase-contrast microscopy but probably represents a very early stage in the normal acrosome reaction. This early stage is difficult to detect at the light microscope level because sperm are still in rouleaux and because membrane fusion is not directly observable. In contrast, acrosin activity, which was assayed in the same supernatants, increased at later times when sperm were observed to have completed normal acrosome reactions. The ultrastructural distribution of DPP II was determined in sperm pellets collected during in vitro incubation by using the DPP II substrate lysyl-alanyl-4-methoxy-2-naphthyamide. In freshly isolated cauda epidiymal sperm, reaction product is confined to the light-staining area in the dorsal bulge of the acrosome. However, by 1 hour of incubation, the light-staining area of many sperm was partially or completely dispersed, while other regions of the acrosome were unchanged. Our data are consistent with the conclusions that DPP II is a highly soluble component of the guinea pig sperm acrosome and that its release occurs during the initial phase of the acrosome reaction while sperm are still in rouleaux. Structural changes in the acrosome associated with DPP II release were detectable by electron microscopy but not by light microscopy. Acrosin, which is less soluble than DPP II, is released at a later time during the acrosome reaction. Both DPP II and acrosin appear to be partially inhibited following their release from sperm. A complete understanding of the sequential release and extracellular activities of the acrosomal enzymes will be necessary to fully define their functions in fertilization.     

Equatorin is not essential for acrosome biogenesis but is required for the acrosome reaction

The acrosome is a specialized organelle that covers the anterior part of the sperm nucleus and plays an essential role in mammalian fertilization. However, the regulatory mechanisms controlling acrosome biogenesis and acrosome exocytosis during fertilization are largely unknown. Equatorin (Eqtn) is a membrane protein that is specifically localized to the acrosomal membrane. In the present study, the physiological functions of Eqtn were investigated using a gene knockout mouse model. We found that Eqtn^−/− males were subfertile. Only approximately 50% of plugged females were pregnant after mating with Eqtn^−/− males, whereas more than 90% of plugged females were pregnant after mating with control males. Sperm and acrosomes from Eqtn^−/− mice presented normal motility and morphology. However, the fertilization and induced acrosome exocytosis rates of Eqtn-deficient sperm were dramatically reduced. Further studies revealed that the Eqtn protein might interact with Syntaxin1a and SNAP25, but loss of Eqtn did not affect the protein levels of these genes. Therefore, our study demonstrates that Eqtn is not essential for acrosome biogenesis but is required for the acrosome reaction. Eqtn is involved in the fusion of the outer acrosomal membrane and the sperm plasma membrane during the acrosome reaction, most likely via an interaction with the SNARE complex.     

Effect of heparin and chondroitin sulfate on the acrosome reaction and fertility of bovine sperm in vitro

Glycosaminoglycans (GAGs) were reported to induce acrosome reactions (AR) in epididymal and ejaculated bovine sperm (4,5). The GAGs chondroitin sulfate A (CS-A) and heparin were tested on ejaculated bovine sperm for their ability to increase in vitro fertilization (IVF) frequencies. Regardless of treatment, a sperm-egg incubation time of 18 hr was sufficient to achieve maximal rates of fertilization. The IVF frequency of sperm incubated 6 hr with 10 mug/ml heparin (116 173 , 67%) was increased (P<0.05) above control levels (56 181 , 31%); however, 10 mug/ml CS-A (56 164 , 34%) was without effect (P>0.05). In contrast to previous reports, CS-A did not (P>0.05) induce AR in ejaculated (9.5-hr incubation) or epididymal sperm (22.5-hr incubation). Linear increases in fertilization frequency (40% to 81%; P=0.001) and AR (9% to 32%; P相似文献   

Effect of sperm diluents on the acrosome reaction in canine sperm

In this study we investigated the influence of sperm diluting media and temperature on the incidence of the acrosome reaction in dog sperm. Ejaculates were collected from 5 dogs, diluted with six different media and then incubated at 37 degrees C and 20 degrees C. Fluorescein isothiocynate conjugated peanut agglutinin (FITC-PNA) and ethidium homodimer as a vital stain were used in combination to determine the acrosomal status of viable spermatozoa, the technique was validated using electron microscopy. The outer acrosomal membrane of dog spermatozoa was shown to be the specific binding site for FITC-PNA. After 6 h of incubation, ejaculates diluted in media with a high Ca2+ concentration showed a significantly higher percentage (means +/- SD) of acrosome reacted spermatozoa [64 +/- 7 and 58 +/- 9 in sperm capacitation medium with (SP-TALP-1) and without BSA (SP-TALP-2), respectively] than those diluted in media with a low Ca2+ concentration [36 +/- 5, 39 +/- 4, 18 +/- 2 and 20 +/- 4 in Canine Capacitation Medium (CCM), Egg Yolk Tris dog semen extender (EXT-1), Modified Egg Yolk Tris extender (EXT-2) and Modified CCM (MCCM), respectively]. The increase in the percentage of acrosome reaction (AR) was slower at 20 degrees C than at 37 degrees C. In addition, the percentage of viable acrosome reacted spermatozoa increased significantly from 19 +/- 5 and 22 +/- 3 in non-bound sperm to 27 +/- 4 and 30 +/- 6 in zona pellucida bound sperm (diluted in EXT-2 and MCCM, respectively). We conclude that the composition of the spermatozoa diluent has a marked effect on the incidence of the acrosome reaction. Therefore, both the media used to dilute dog sperm and the temperature at which the spermatozoa are handled are important factors to consider when processing spermatozoa for artificial insemination, IVF procedures or preservation.     

NMDA‐type glutamate receptors mediate the acrosome reaction and motility initiation in newt sperm

The N‐methyl d ‐aspartate type glutamate receptor (NMDAR) is a ligand‐gated cation channel that causes Ca²⁺ influx in nerve cells. An NMDAR agonist is effective to the sperm motility in fowls, although the actual role of NMDAR in sperm function is unknown. In the present study, RNA‐seq of the spermatogenic testes suggested the presence of NMDAR in the sperm of the newt Cynops pyrrhogaster. Glutamate of at least 0.7 ± 0.5 mM was detected in the egg‐jelly substances along with acrosome reaction‐inducing substance (ARIS) and sperm motility‐initiating substance (SMIS). In the egg‐jelly extract (JE) that included the ARIS and SMIS, the acrosome reaction was inhibited by a NMDAR antagonists, memantine and MK801. MK801 also inhibited the spontaneous acrosome reaction in Steinberg's salt solution (ST). Furthermore, memantine and MK801 suppressed the progressive motility of the sperm in JE and spontaneous waving of the undulating membrane, which is the tail structure giving thrust for forward motility, in ST. The spontaneous waving of the undulating membrane was promoted when Mg²⁺, which blocks Ca²⁺ influx through gated NMDARs, was removed from the ST. In addition, the ARIS‐induced acrosome reaction was inhibited by a selective antagonist of the transient receptor potential vanilloid 4, whose activation might result in the membrane depolarization to release Mg²⁺ from the NMDAR. These results suggest that NMDAR acts together with other cation channels in the induction of the acrosome reaction and motility of the sperm during the fertilization process of C. pyrrhogaster.     

Induction of the acrosome reaction in dog sperm cells is dependent on epididymal maturation: the generation of a functional progesterone receptor is involved

In the current study we investigated the progesterone receptor exposure on the sperm from the testis and different parts of the epididymis, the relation to the sperm maturation stage, the functionality of the progesterone receptor and the capacity of sperm to undergo acrosome reaction. Exposed progesterone receptors on spermatozoa were detected using Progesterone-BSA conjugate labeled with fluorescein isothiocyanate (P-BSA-FITC) or a monoclonal antibody against progesterone receptor, C-262. Either progesterone or calcium ionophore was used to induce acrosome reaction. A high percentage (69 +/- 8%; mean +/- SD) of spermatozoa from the cauda epididymis showed P-BSA-FITC labeling at the onset of incubation, whereas only 0.1 +/- 1 and 4 +/- 2%, of spermatozoa from the testes, caput, and corpus epididymis, respectively, were labeled. There was no significant increase in P-BSA-FITC binding during the course of a 6 hr incubation. Treatment with either 10 microM progesterone or 5 microM calcium ionophore induced acrosome reaction in cauda epididymal sperm but not in testicular sperm, caput or corpus epipidymal sperm. It is concluded that the matured sperm of the dog from cauda epididymis and freshly ejaculated sperm demonstrate a functional membrane-bound progesterone receptor while less matured spermatozoa from the testicle, caput, and corpus epididymis fail to demonstrate such a receptor. Acrosome reaction of dog sperm can be induced using either progesterone or calcium ionophore; however, the maturation stages of spermatozoa influence this occurrence.     

Evaluation of sperm acrosome reaction in the Asiatic elephant

This study focuses on the effect of chemicals on acrosome reaction in elephant spermatozoa. Semen was collected at the Washington Park Zoo in Portland, Oregon, from an 11-yr-old Asian elephant by artificial vagina (7 ejaculates) and transported to Mahidol University in Bangkok in extender at 4 to 5 degrees C within 24 to 28 h. A total of 500 x 10(6) sperm/mL was used for the control and for each of the 4 treatment groups: 1) cAMP (0.1 mM); 2) caffeine (0.1 mM); 3) Penicillamine hypotaurine and epinephine, PHE (penicillamine 2 mM, hypotaurine 1 mM, epinephine 1 mM); and 4) heparin (10 microg/mL) at 39 degrees C for 2 h. Aliquots were removed and the sperm viability, abnormal morphology, and acrosome status were evaluated by triple stain technique. Transmission electron microscopy (TEM) was used to observe changes of the sperm head membrane in all treatment groups. Trypan blue reliably stained dead spermatozoa, while rose Bengal stained only the spermatozoa with intact acrosomes. The concentration of dead sperm cells was similar in the 4 groups. The percentages of live acrosome-reacted spermatozoa in the control and in groups treated with caffeine, PHE, cAMP and heparin were 19.5 +/- 4.3, 38.1 +/- 4.0, 34.8 +/- 3.7, 29.8 +/- 0.8 and 28.0 +/- 4.2, respectively. The acrosome reaction rate was higher in the treatment groups than in the control (P<0.05). Caffeine and PHE caused significantly higher acrosome reaction of the sperm head than cAMP or heparin (P<0.05). The electron micrographs showed that the acrosome reaction occurred by the presence of apical vesiculation. The results indicated that 1) the triple stain technique allowed for evaluation of both viability and acrosome reaction simultaneously in elephant spermatozoa,2) acrosome reaction occurred at a high rate in all 3 treatment groups. 3) the effects of caffeine and PHE were significantly higher (P<0.05) than of cAMP and heparin, and 4) the data obtained from the triple stain technique corresponded to those from TEM.     

N- and O-glycans are not directly involved in the oligomerization and apical sorting of GPI proteins

Oligomerization of glycosyl-phosphatidylinositol-anchored proteins (GPI-APs) into high molecular weight complexes is an essential step for their apical sorting in polarized epithelial cells. However, the mechanism by which apical GPI-APs oligomerize is still unclear. To investigate the possible role of N- and O-glycosylation, we have analysed the behaviour of two glycosylated GPI-anchored apical proteins, p75GPI and placental alkaline phosphatase (PLAP), and their glycosylation mutants. We found that both the N- and O-glycosylation mutants are apically sorted, associate to detergent-resistant microdomains and are able to oligomerize, like the wild-type proteins, suggesting that glycosylation does not have a direct role in GPI-AP oligomerization and apical sorting. Interestingly, when cells are depleted of cholesterol and treated with tunicamycin, treatments that by themselves do not affect PLAP sorting, PLAP is not able to oligomerize and is missorted to the basolateral surface, thus supporting an indirect role of N-glycosylation, possibly mediated by a raft-associated glycosylated interactor.     

Studies of sperm from mutant mice suggesting that two neurotransmitter receptors are important to the zona pellucida-initiated acrosome reaction

Two sperm neurotransmitter receptor/channels, the glycine receptor (GlyR) and a nicotinic acetylcholine receptor containing an alpha7 subunit (alpha7nAChR) were previously shown to be important to the mouse acrosome reaction (AR) initiated by solubilized egg zona pellucida (ZP). Here, we investigated whether sperm from homozygous mutant mice with a single amino acid mutation in the alpha subunit of their GlyR and sperm from homozygous mutant mice with an engineered disruption of the gene for the nicotinic acetylcholine receptor alpha7 subunit could undergo the AR on ZP-intact eggs. Wild-type and mutant sperm were treated with 3-quinuclidinyl benzilate (QNB), known to be an inhibitor of the ZP-initiated AR (but shown in the present work not to inhibit the acetylcholine-initiated AR). The ZP-initiated AR on ZP-intact eggs should occur only in sperm not treated with QNB. The absence of such an increase in the untreated mutant sperm would demonstrate that such sperm were unable to respond to the intact ZP. The results demonstrated for the first time that GlyR mutant sperm do not undergo the AR on ZP-intact mouse eggs, and that their ability to fertilize is inhibited by 63% in vitro. Moreover, we found that GlyR mutant sperm exhibited normal capacitation and confirmed that they not undergo the AR initiated by solubilized mouse ZP. Our studies demonstrated for the first time that sperm from mutant alpha7nAChR mice exhibit normal capacitation, do not undergo the AR in response to acetylcholine, solubilized ZP or on ZP-intact eggs, and display a 25% reduction in fertilization in vitro. This is the first genetic evidence for the importance of the alpha7nAChR in the ZP-initiated AR. While defects in either the GlyR or the alpha7nAChR completely inhibit the ZP-initiated AR, fertilization by these mutant sperm can still occur in vitro, probably due to sperm that complete spontaneous AR on the ZP.