External calcium concentration and fertilization in the sea urchin, Strongylocentrotusfranciscansus (A. Agassiz) (Echinodermata)

The role of external calcium ions in the fertilization of the sea urchin, Strongylocentrotusfranciscansus (A. Agassiz), was studied. When eggs were inseminated with jelly-treated sperm in artificial sea waters containing various concentrations of calcium, the percentage of fertilization decreased with decreasing concentrations of calcium. A small amount of external calcium ions was also found to be essential for fertilization by spermatozoa with reacted acrosomes. The binding capacity of jelly-treated spermatozoa to eggs was, however, not adversely affected by a calcium deficiency. These results suggest that calcium ions are required not only for the initiation of the acrosome reaction, but also for successful levels of fertilization following sperm-binding to eggs even after the acrosome reaction has occurred.     

MAGNESIUM ION-REQUIRING STEP IN FERTILIZATION OF SEA URCHINS*

The magnesium ion-requiring step in fertilization of sea urchins was investigated. When eggs were inseminated in Mg-free sea water, several spermatozoa were found to bind to each egg surface with their reacted acrosomes without elevation of fertilization membrane. The number of binding jelly-treated spermatozoa to an egg did not differ regardless of the presence or virtual absence of magnesium ions. Although fertilization did not occur in Ca, Mg-deficient sea water (CM-deficient SW) even when jelly-treated spermatozoa were employed, some eggs could be fertilized by the addition of magnesium to the CM-deficient SW 60 sec after insemination, when jelly-treated spermatozoa had completely lost their fertilizing capacity in the CM-deficient SW. The acrosomal process of jelly-treated spermatozoa appeared to penetrate the vitelline layer in the CM-deficient SW. DTT- or pancreatin-treated eggs could not be fertilized in the virtual absence of magnesium. Re-fertilization using the fertilized eggs deprived of fertilization membrane did not occur under conditions of magnesium deficiency. These results suggest that external magnesium ions are indispensable at least for the fertilization process following penetration of the vitelline layer by the spermatozoa, such as fusion of the plasma membrane between an egg and a reacted spermatozoon, or the subsequent step(s) such as sperm penetration into egg interior and egg activation which precedes the cortical reaction.     

Mouse gamete interactions: The zona pellucida is the site of the acrosome reaction leading to fertilization in vitro

The question of whether the acrosome reaction, which leads to fertilization, occurs in intact sperm bound to the zona pellucida of the egg or in intact sperm before contact with the egg, was addressed by assessing the effect of 3-quinuclidinyl benzilate (QNB) on the two types of acrosome reaction. QNB is a specific inhibitor of the fertilization of zona-intact mouse eggs by mouse sperm. Mouse spermatozoa in suspension underwent acrosome reactions at a low rate, which could be accelerated by addition of 5 μM divalent cation ionophore A23187; the occurrence of such acrosome reactions was not inhibited by QNB. The rate at which acrosome reactions occurred in sperm bound to the zona pellucida of cumulus-free eggs, bound to isolated zonae, or exposed to acid-solubilized zona components, was greatly accelerated relative to that observed in the absence of zonae. These acrosome reactions were strongly inhibited by QNB at concentrations which inhibit the fertilization of zona-intact mouse eggs in vitro. These data suggest that the zona pellucida can induce acrosome reactions in mouse spermatozoa and that these acrosome reactions are the ones which lead to the fertilization of zona-intact eggs. In contrast, the acrosome rection in sperm which are not in contact with the zona is not associated with fertilization of zona-intact eggs.     

Human sperm acrosomal status,acrosomal responsiveness,and acrosin are predictive of the outcomes of in vitro fertilization: A prospective cohort study

The sperm acrosome reaction (AR) is a physiological secretory course of membrane fusion and hydrolytic enzymes, as well as matrix protein release, enabling spermatozoa to penetrate the egg surroundings. An instable acrosomal status before a specific stimulus, insufficient acrosomal responsiveness, or inadequate enzymatic activity of acrosomal content can be detrimental to male fertility. This prospective cohort study was designed to determine whether three human sperm acrosome evaluation parameters—including spontaneous AR rate, AR after calcium ionophore A23187 challenge (ARIC) rate, and modified Kennedy acrosin activity—can predict fertilization outcomes in vitro and are correlated with male characteristics. A total of 485 eligible couples undergoing in vitro fertilization (IVF) therapy were included in two phases of this study. In a ‘construction phase’, three acrosome evaluation parameters were determined simultaneously in 132 cases, whereas in a ‘validation phase’, the spontaneous AR rate was determined in 353 cases. The results of the ‘construction phase’ revealed that the spontaneous AR rate was the only significant predictor of fertilization outcome (unadjusted odds ratio [OR]?=?0.68, 95% confidence interval [CI]: 0.53–0.88, P?=? 0.003; adjusted OR = 0.64, 95% CI: 0.43–0.95, P?=? 0.03), and the cut-off value for total fertilization failure (TFF) prediction, determined by ROC curve analysis, was 9.91%; higher acrosin activity was shown to predict a higher fertilization rate only when patients were divided into groups (≥25 μIU/10⁶ spermatozoa, 14–25 μIU/10⁶ spermatozoa, <14 μIU/10⁶ spermatozoa). The spontaneous AR rate was negatively correlated with sperm motility, forward progression motility, and normal morphology; modified Kennedy acrosin activity was positively correlated with normal morphology; and the ARIC rate was not correlated with any of the male characteristics. A similar result was obtained for the spontaneous AR rate in the ‘validation phase’, and the cut-off value in predicting TFF was calibrated for 9.52%. Clinically, patients can voluntarily choose spontaneous AR rate alone or in combination with modified Kennedy acrosin activity to predict TFF, and early rescue intracytoplasmic sperm injection (ICSI), half ICSI, or full ICSI should be considered in advance for men with spontaneous AR rates ≥9.52% or spontaneous AR rates ≥9.52% and AE activities <25 μIU/10⁶ spermatozoa.     

Effects of protease inhibitors on sperm-related events in sea urchin fertilization

Evidence for sperm-borne proteolytic enzymes exposed during the acrosome reaction in sea urchin sperm has been accumulating. To investigate the possible role(s) such enzymes have in fertilization, we studied the effects of several protease inhibitors on sperm-related events. Soybean trypsin inhibitor, Nα-p-tosyl-l-lysine, chloromethyl ketone, phenylmethylsulfonyl fluoride, and chymostatin neither reduced the number of acrosome reactions nor interfered with gamete binding. p-Nitrophenyl-p′-guanidinobenzoate caused sperm to fuse into irregular clumps, rendering them unable to fertilize eggs. However, l-1-tosylamide-2-phenylethyl chloromethyl ketone (TPCK), an inhibitor of chymotrypsin, prevented the acrosome reaction in Strongylocentrotus purpuratus, S. droebachiensis, and Lytechinus pictus. The effects of TPCK on sperm in subsequent steps of fertilization were also investigated. First, gamete binding assays were performed on fixed eggs. This precluded any effects TPCK might have had on egg-derived secretions (e.g., proteases). Binding of prereacted sperm occurred with both fixed and living eggs. However, fertilization of living eggs in the presence of TPCK was greatly reduced, even though sperm had been prereacted with egg jelly. Vitelline coats were then removed from eggs by trypsin treatment. Eggs in TPCK fertilized and developed normally after the above treatment. These observations are consistent with the hypothesis of a sperm protease participating in the acrosome reaction and the penetration of the egg vitelline coat in the sea urchin.     

THE ACROSOME REACTION IN MYTILUS EDULIS : II. Stages in the Reaction,Observed in Supernumerary and Calcium-Treated Spermatozoa

Suspensions of Mytilus edulis eggs were fixed with osmium tetroxide at various intervals between 1 and 10 seconds after heavy insemination, and sectioned for electron microscopy to follow the natural process of acrosome reaction in the spermatozoa around the eggs. Sperm suspensions were also fixed after the addition of 10 per cent by volume of M/3 calcium chloride. Within the first second after the acrosome is stimulated to react, an opening appears at its apex, around which the plasma and acrosomal membranes fuse to each other, and the resulting membrane complex is reflected backward, presumably by the swelling of material lining it. At the same time the other material within the now open vesicle disappears, and the rudiment of the acrosomal process, consisting of a short axial rod loosely surrounded by the invaginated part of the acrosomal membrane, is exposed at the anterior side of the sperm head. Within another second this rudiment is extended by elongation of the axial rod and expansion of the surrounding membrane. If the spermatozoon has reacted close to the egg surface, the elongation may be very slight, whereas in suspended spermatozoa the process may reach a length of 13 µ. Possible mechanisms underlying these changes are suggested.     

Sperm treatment affects capacitation parameters and penetration ability of ejaculated and epididymal boar spermatozoa

This work was designed to study how this ability is affected by different sperm treatments routinely used for in vitro fertilization (IVF) assay. In this study, boar sperm samples from epididymal or ejaculated origin were processed by three different methods: left unwashed (NW group), washed in Dulbecco's phosphate-buffered saline supplemented with 0.1% BSA (BSA group), and washed on a Percoll^® gradient (PERCOLL group). After preparation of semen samples, changes in motility patterns were studied by CASA, calcium uptake by spectrofluorimetry, and ROS generation, spontaneous acrosome reaction, and lipid disorder by means of flow cytometry. Finally IVF assays were also performed with the different semen samples and penetrability results evaluated at 2 and 4 h post insemination (hpi). Independently of the sperm treatment, epididymal spermatozoa showed higher values of progressive motility, percentage of live cells with low lipid disorder, and penetration ability at 4 hpi than the corresponding ejaculated spermatozoa. Ejaculated spermatozoa showed higher levels of calcium uptake, ROS generation and percentage of spontaneous acrosome reaction than epididymal sperm. Regarding sperm treatments, PERCOLL group showed the highest values for some motility parameters (linearity of the curvilinear trajectory, straightness, and average path velocity/curvilinear velocity), ROS generation and penetration ability at 2 and 4 hpi; however this same group showed the lowest values for sperm curvilinear velocity and lateral head displacement. From all experimental groups, ejaculated-PERCOLL-treated spermatozoa showed the highest fertilization ability after 2 hpi. Results suggest that capacitation pathways can be regulated by suitable treatments making the ejaculated sperm able to reach capacitation and fertilize oocytes in similar levels than epididymal spermatozoa, although most of the studied capacitation-associated changes do not correlate with this ability.     

RELATION BETWEEN THE ACROSOME REACTION AND FERTILIZATION IN THE SEA URCHIN. II. FERTILIZATION IN ACIDIFIED SEA WATER WITH EGG-WATER-TREATED SPERMATOZOA*

Fertilization of sea urchin eggs fails to occur at a pH lower than 6.5. Analytical studies on this problem were made with Hemicentrotus pulcherrimus, Anthocidaris crassispina and Pseudocentrotus depressus. If the spermatozoa have been pretreated with egg water, eggs can be fertilized even at pH 6.5 and 6.0. The acrosome reaction is inhibited at a pH lower than 6.5. Intact spermatozoa fail to adhere to the fixed eggs in acidified sea water, whereas egg-water-treated spermatozoa adhere even at pH 6.5 and 6.0. From these results we infer that the failure of fertilization at pH 6.5–6.0 is caused by non-occurrence of the acrosome reaction, and that fertilization reactions other than the acrosome reaction, such as the binding and fusion of the gametes, are not inhibited in this range of pH. At pH 5.5, the spermatozoa become inert and fertilization is inhibited or suppressed, even though egg-water-treated spermatozoa are employed.     

Involvement of an acrosin-like enzyme in the acrosome reaction of sea urchin sperm

Extracts of the jelly coat of eggs of several marine invertebrates are known to induce in homologous sperm morphological changes known as the acrosome reaction. When sperm of the sea urchin Strongylocentrotus purpuratus are treated with low concentrations (0.2 μg fucose/ml) of egg jelly coat or 30 mM CaCl₂ in artificial seawater the acrosome reaction does not occur. However, either of these treatments causes the exposure of an acrosin-like enzyme to exogenous substrate and inhibitors. Subsequent addition of jelly coat to 3.7 μg fucose/ml to sperm in this “initial stage” induces the acrosome reaction (as judged by the appearance of an acrosomal filament). This concentration is also effective for untreated sperm. If inhibitors of the enzyme (diisopropylphosphofluoridate or phenylmethanesulfonyl fluoride) are added to sperm in the initial stage, no acrosomal filaments are observed when the high concentration of jelly coat is added. Whether other morphological changes occur in these sperm has not been examined. If phenylmethanesulfonyl fluoride is added 4 sec after the jelly coat, the acrosomal filaments are observed, but the sperm still fail to fertilize eggs. These results suggest a dual role for the acrosin-like enzyme(s), first in the mechanism of the acrosomal filament formation and then in a subsequent event in the fertilization process.     

Studies on the interactions of sperm with the surface of the sea urchin egg

We have examined the relationship between sperm adhesion and fertilization in the cross species insemination of Arbacia punctulata eggs by Strongylocentrotus purpuratus sperm. As previously reported (Kinsey et al., 1980) the addition of S. purpuratus egg jelly results in induction of the acrosome reaction in sperm and significant numbers of S. purpuratus sperm adhere to A. punctulata eggs. However, in the absence of S. purpuratus egg jelly, S. purpuratus sperm fail to bind to A. punctulata eggs. Although at least 200 S. purpuratus sperm bind to an A. punctulata egg in the presence of S. purpuratus jelly, less than 8% of the eggs are fertilized. The adhesion of S. purpuratus sperm meets the same functional criteria as homologous A. punctulata sperm-egg adhesion. Electron microscopy shows that S. purpuratus sperm that have undergone the acrosome reaction adhere to A. punctulata eggs by their bindin-coated acrosomal process in a manner that is morphologically identical to that observed with homologous A. punctulata sperm. We have also compared the ability of S. purpuratus and A. punctulata sperm to fuse and fertilize with A. punctulata eggs after removal of the vitelline layer. Using high levels of sperm of either species, heterologous as well as homologous fertilization is readily detectable. Under these conditions, where stable binding is not demonstrable, there is no difference in the ability of S. purpuratus and A. punctulata sperm to fertilize A. punctulata eggs. These observations suggest that the failure of S. purpuratus sperm to fertilize A. punctulata eggs under normal conditions may be due to their inability to penetrate the vitelline layer so that they can fuse with the egg plasma membrane. In relation to the possible mechanism of vitelline layer penetration, we have also investigated the mode of action of chymostatin, an inhibitor of chymotrypsin that has been reported to inhibit fertilization of sea urchin eggs (Hoshi et al., 1979). Our findings suggest that the fertilization inhibitory activity of chymostatin is not related to its antichymotrypsin activity. Rather, it appears that this inhibition is due to the induction of an abnormal acrosome reaction in sperm that precludes formation of the acrosome process.     

When do sperm of the sea urchin,Pseudocentrotus depressus,undergo the acrosome reaction at fertilization?

Jelly coats of the sea urchin, Pseudocentrotus depressus, were stripped off the eggs, and the eggs were “inseminated.” After penetration through the isolated jelly hull, sperm swarmed in the cavity previously occupied by the egg. Electron microscopic examination could not detect any sperm with reacted acrosome. Observation was also made of the sperm penetrating through the intact jelly coat-egg complex. Although a number of sperm were examined in ultrathin sections, only those attached to the vitelline layer had undergone the acrosome reaction; those sperm embedded in jelly but not attached to the vitelline layer had not undergone the acrosome reaction. The sequence of events in fertilization of this species and of other echinoids is discussed.     

Sperm binding to the zona pellucida is not sufficient to induce acrosome exocytosis

At fertilization, spermatozoa bind to the zona pellucida (ZP1, ZP2, ZP3) surrounding ovulated mouse eggs, undergo acrosome exocytosis and penetrate the zona matrix before gamete fusion. Following fertilization, ZP2 is proteolytically cleaved and sperm no longer bind to embryos. We assessed Acr3-EGFP sperm binding to wild-type and huZP2 rescue eggs in which human ZP2 replaces mouse ZP2 but remains uncleaved after fertilization. The observed de novo binding of Acr3-EGFP sperm to embryos derived from huZP2 rescue mice supports a ;zona scaffold' model of sperm-egg recognition in which intact ZP2 dictates a three-dimensional structure supportive of sperm binding, independent of fertilization and cortical granule exocytosis. Surprisingly, the acrosomes of the bound sperm remain intact for at least 24 hours in the presence of uncleaved human ZP2 regardless of whether sperm are added before or after fertilization. The persistence of intact acrosomes indicates that sperm binding to the zona pellucida is not sufficient to induce acrosome exocytosis. A filter penetration assay suggests an alternative mechanism in which penetration into the zona matrix initiates a mechanosensory signal transduction necessary to trigger the acrosome reaction.     

Ethanol inhibits human and hamster sperm penetration of eggs

The effect of alcohol on the fertilizing ability of both human and hamster spermatozoa was examined by an in vitro fertilization assay using hamster ova. Spermatozoa were incubated in capacitating media for 3 hr (hamster sperm) and 4 hr (human sperm). Hamster ova were inseminated with preincubated sperm and were examined after 2 to 3 hr. Ethanol was added to the capacitating media at concentrations of 25, 50, 100, 200, and 400 mg%. Fertilization of zona-free hamster eggs by human spermatozoa was reduced from 49.6% in no alcohol to 16.7% in 400 mg% ethanol. Fertilization of hamster eggs by hamster sperm revealed a reduction from 63.6% to 33.7% in cumulus-intact eggs and from 65.8% to 10.8% in cumulus-free eggs in the presence of ethanol at 400 mg%. Hamster sperm acrosome reaction was reduced from 47% to 12%. When these hamster sperm with reduced acrosome reaction were placed with zona-free hamster eggs, the 100% fertilization rate was not reduced; however, the fertilization index, which reflects the number of swelling sperm heads per egg, was reduced from 8.5 to 1.8. This suggests that as little as 12% of the sperm with an acrosome reaction is sufficient to fertilize 100% of the zona-free eggs. If ethanol was added to the insemination media only, there was no inhibition of fertilization by human sperm or hamster sperm that had been previously capacitated in an ethanol-free media. Removal of the ethanol from the preincubated sperm produced fertilization at control levels; thus the inhibitory effect is reversible. These results indicate that ethanol may affect fertilization by an inhibition of the capacitation and/or acrosome reaction process.     

Fusion of hamster and pig zona-free eggs stimulated by boar and guinea pig sperm at fertilization in vitro

In the course of in vitro fertilization of zona-free hamster and pig eggs by boar and guinea-pig spermatozoa it was observed that homologous and heterologous eggs fused together, forming cell hybrids between two or more cells. The fusogenic activity was attributed to spermatozoa and this was the hypothesis tested. The fusogenic activity (coinciding with sperm penetration activity) was dependent on the duration of sperm preincubation, which may be regarded as capacitation in vitro. Fusion occurred only after 3 hr of sperm preincubation and a narrow optimum was detected at 4–4.5 hr. Fusion of eggs was also dependent on sperm concentration. A relatively high proportion of fusions was observed at a sperm concentration of 4.0 × 10⁴ per ml and an optimum was attained at a concentration of 5.0 × 10⁵ per ml. The first fusions were observed at 90 min after semination. After 3 hr more than a half of the eggs reacted, and by 20 hr of incubation 80% of ova were fused. The fusability of eggs was tested and found to occur at 14 hr after ovulation. The fusion process was also studied using transmission electron microscopy. It is supposed that the process of egg fusion may be caused either by a similar mechanism to sperm-egg fusion, or by products released during the sperm acrosome reaction.     

THE FERTILIZING CAPACITY OF SEA URCHIN SPERM RAPIDLY DECREASES AFTER INDUCTION OF THE ACROSOME REACTION*

When immotile, flagella-less sperm were added to acid-dejellied eggs of Strongylocentrotus purpuratus 11% of the eggs fertilized. Addition of soluble egg jelly increased the percentage fertilization to 90.5. Over 50% of the sperm exposed to egg jelly had undergone the acrosome reaction compared to only 3–5% in the absence of jelly. Egg jelly was added to flagella-less sperm to induce the acrosome reaction and dejellied eggs added at various times thereafter. The fertilizing capacity of the sperm decreased with first order kinetics with 50% loss by 23 sec after induction of the acrosome reaction. Intact, motile sperm bind to formaldehyde-fixed eggs with maximum binding occurring 40 sec after sperm addition. After 40 sec the sperm begin to detach from the fixed eggs and by 240 sec none remain attached. Sperm detachment from fixed eggs and loss of fertilizing capacity after the acrosome reaction show a close temporal correlation.     

Intracellular calcium release at fertilization in the sea urchin egg.

Fertilization or ionophore activation of Lytechinus pictus eggs can be monitored after injection with the Ca-sensitive photoprotein aequorin to estimate calcium release during activation. We estimate the peak calcium transient to reach concentrations of 2.5–4.5 μM free calcium 45–60 sec after activation and to last 2$\text{3}\text{?}$ min, assuming equal Ca²⁺ release throughout the cytoplasm. Calcium is released from an intracellular store, since similar responses are obtained during fertilization at a wide range of external calcium concentrations or in zerocalcium seawater in ionophore activations. In another effort to estimate free calcium at fertilization, we isolated egg cortices, added back calcium quantitatively, and fixed for observation with a scanning electron microscope. In this way, we determined that the threshold for discharge of the cortical granules is between 9 and 18 μM Ca²⁺. Therefore, the threshold for the in vitro cortical reaction is about five times the amount of free calcium, assuming equal distribution in the egg. This result suggests that transient calcium release is confined to the inner subsurface of the egg.     

Acrosome reaction of boar spermatozoa in homologous in vitro fertilization

Ejaculated spermatozoa from four different boars were used to evaluate the acrosome reaction during in vitro fertilization with homologous ovulated oocytes. The acrosome reaction was assessed according to a peroxidase-labeling peanut agglutinin method and a triple-stain technique. An increase in the proportion of living sperm with reacted acrosomes was observed after preincubation and 2 hr of coincubation (P < 0.05). The percentage of true acrosome-reacted sperm remained reasonably constant throughout coincubation. In vitro penetration rates of oocytes varied among boars, but no relationship was found between fertilization rates of oocytes and maximum percentages of acrosome reacted living sperm. © 1993 Wiley-Liss, Inc.     

INHIBITION OF RESPIRATION IN SEA URCHIN SPERMATOZOA FOLLOWIGN INTERACTION WITH FIXED UNFERTILIZED EGGS

The respiratory rate of spermatozoa of the sea urchin, Pseudocentrotus depressus and Hemicentrotus pulcherrimus , became quite low and spermatozoa was immotile, after sperm suspension containing glutaraldehyde-fixed eggs of homologous species was stirred at 20°C for 15 min. The respiratory rate of fresh spermatozoa, introduced to the suspension of immotile spermatozoa thus obtained, was also reduced markedly. The respiration of fresh spermatozoa was not inhibited by adding them to suspension of intact or acrosome reacted spermatozoa. A heat stable and non-dialyzable substance, which inhibited sperm respiration, was removed from the fixed eggs by vigorously stirring the egg suspension for 10 min, when unfertilized eggs were fixed with insufficient amount of glutaraldehyde (10 ml of 1% glutaraldehyde solution to 1 ml egg pellet).     

Calcium-dependent binding of mouse epididymal spermatozoa to the zona pellucida.

The minimal requirements and characteristics of epididymal sperm binding to the zona pellucida of the mouse egg were investigated using a new stop-fix centrifugation technique. This assay provided a precise physical definition of the association between the spermatozoon and the zona and permitted quantitation of the binding reaction at short time intervals. The results demonstrated that Ca²⁺ is an essential physiological component required for binding to occur. Sperm preincubated for 60 min in a simplified medium lacking Ca²⁺ did not acquire the ability to bind to eggs. In contrast, if sperm preincubation occurred in this medium supplemented with 1.7 mM Ca²⁺, binding was identical to that observed following sperm preincubation in the complete culture medium which supports both capacitation and fertilization in vitro. The Ca²⁺-dependent binding reaction was rapid, reversed by EGTA, specific for Ca²⁺, and did not require the transport of Ca²⁺ into the cell. Sperm bound to the zona surface following preincubation with Ca²⁺ were capable of fertilization in vitro when the eggs were subsequently transferred to the culture medium. It is proposed that this binding reaction represents a part of capacitation and not the acrosome reaction.     

Antibody to a sperm surface glycoprotein inhibits the egg jelly-induced acrosome reaction of sea urchin sperm

When the surface of sea urchin (Strongylocentrotus purpuratus) sperm is radioiodinated, 75% of the protein-incorporated radioactivity is associated with two glycoproteins of M_r 84,000 (84K) 64,000 (64K) (Lopo and Vacquier 1980). Antibodies were prepared against these two components by separating a Triton X-100 extract of sperm on SDS-polyacrylamide gels, cutting out the band containing the glycoprotein and injecting the homogenized gel into rabbits. Both anti-84K and anti-64K sera agglutinate sperm. Light and EM immunoperoxidase localization show both antigens are distributed over the entire sperm surface. By the immunoperoxidase technique there is some degree of cross-reactivity of both antisera with sperm of other Strongylocentrotus species, but not with those of other genera. Living sperm incubated with anti-84K Fab fragments are completely inhibited from undergoing the egg jelly-induced acrosome reaction and fertilizing eggs. Anti-64K Fab fragments have no effect on the ability of the sperm to undergo the acrosome reaction or fertilize eggs. Sperm incubated in anti-84K or anti-64K Fab fragments undergo the acrosome reaction in response to the Ca²⁺ ionophore A23187, or when the extracellular pH is increased to 9.2 with NH₄OH, indicating that the inhibition of the egg jelly-induced acrosome reaction results from the binding of the anti-84K Fab to an external molecule involved in the initiation or propagation of the acrosome reaction. The 84K glycoprotein is the first sperm surface component identified that might have a role in the induction of the acrosome reaction.