Signaling pathways involved in human sperm hyperactivated motility stimulated by Zn2+

To fertilize the egg, sperm cells must reside in the female reproductive tract for several hours during which they undergo chemical and motility changes collectively called capacitation. During capacitation, the sperm develop a unique type of motility known as hyperactivated motility (HAM). The semen contains Zn²⁺ in millimolar concentrations, whereas in the female reproductive tract, the concentration is around 1 µM. In this study, we characterize the role of Zn²⁺ in human sperm capacitation focusing on its effect on HAM. Western blot analysis revealed the presence of GPR39‐type Zn‐receptor localized mainly in the sperm tail. Zn²⁺ at micromolar concentration stimulates HAM, which is mediated by a cascade involving GPR39–adenylyl cyclase (AC)–cyclic AMP (cAMP)–protein kinase A–tyrosine kinase Src (Src)–epidermal growth factor receptor and phospholipase C. Both the transmembrane AC and the soluble‐AC are involved in the stimulation of HAM by Zn²⁺. The development of HAM is precisely regulated by cAMP, in which relatively low concentration (5–10 µM) stimulated HAM, whereas at 30 µM no stimulation occurred. A similar response was seen when different concentrations of Zn²⁺ were added to the cells; low Zn²⁺ stimulated HAM, whereas at relatively high Zn²⁺, no effect was seen. We further demonstrate that the Ca²⁺‐channel CatSper involved in Zn²⁺‐stimulated HAM. These data support a role for extracellular Zn²⁺ acting via GPR39 to regulate signaling pathways in sperm capacitation, leading to HAM induction.     

The onset and maintenance of hyperactivated motility of spermatozoa from the mouse

Estimates were made of the proportion of freely motile mouse spermatozoa displaying hyperactivated motility by an objective photographic method employing stroboscopic illumination under dark-field conditions and examining displacements of the sperm head and bend angles of the sperm tail. In media known to support in vitro fertilisation hyperactivation gradually appeared reaching about 40% by 6 hr incubation, and it was not promoted by 2 mM caffeine or 0.1 mM Bt₂ cAMP or washing the cells free of epididymal fluid. Raising the osmolarity of the medium to 400 mOSM with electrolytes, but not nonelectrolytes, did promote hyperactivation (60% by 2 hr) suggesting that the ionic strength of the medium was important. Hyperactivation in high ionic strength media could be prevented by removing or chelating Ca²⁺, or replacing Ca²⁺ with Ba²⁺ or Mg²⁺, when nonhyperactivated motility was maintained, but Sr²⁺, like Ca²⁺, permitted hyperactivated motility. Hyperactivation in low ionic strength medium could be promoted by the ionophore A23187, suggesting that Ca²⁺ movement into the cells is important. Of a range of glycolytic substrates tested supporting nonhyperactivated motility in the presence of lactate, only glucose supported hyperactivation. Addition to glucose— or Ca²⁺ — free, high ionic strength media after 2 hr increased hyperactivation immediately (glucose) or after a lag of 2 hr (Ca²⁺) suggesting that glucose acts on a Ca²⁺ — primed system. Removal from high ionic strength medium, chelation of Ca²⁺ or inhibition of glucose metabolism did not prevent hyperactivation continuing once it had been initiated, indicating different requirements for initiation and maintenance of this form of motility.     

Quantitative analysis of flagellar movement in hyperactivated and acrosome-reacted golden hamster spermatozoa

Caudal epididymal spermatozoa of golden hamsters were incubated in capacitation medium. Their movement patterns changed as they became hyperactivated and underwent the acrosome reaction. To understand the basic mechanism by which changes in movement pattern are brought about, digital image analysis was carried out on the flagellar movements recorded with a video system. The degree of flagellar bending increased with incubation time, especially in the proximal midpiece. The hyperactivated spermatozoa had remarkably asymmetrical flagellar waves of large amplitude because either the bends in the same direction as the hook of the head (referred as the "pro-hook bend") or the bends in the opposite direction to the hook of the head (referred as the "anti-hook bend") extremely increased their curvature; whereas, the acrosome-reacted spermatozoa had relatively symmetrical flagellar waves of large amplitude because both the pro- and anti-hook bends remarkably increased their curvature. Beat frequency significantly decreased while wavelength of flagellar waves increased after hyperactivation and further after the acrosome reaction. These results suggest that both extreme pro- and anti-hook bends are essential in the acrosome-reacted spermatozoa even though beat frequency decreased markedly.     

Hamster sperm motility transformation during development of hyperactivation in vitro and epididymal maturation

The transformation of hamster sperm motility during capacitation in vitro and during maturation in the caudal epididymis was analyzed and compared using videomicrography. Sperm recovered from the distal portion of the caudal epididymis, as well as ejaculated sperm recovered from the uterus exhibited low amplitude, planar flagellar beating. By 3 hr of incubation under capacitating conditions, the caudal epididymal sperm were swimming in helical patterns apparently produced by significantly increased acuteness of flagellar bending and by torsion seen as abrupt, periodic turning of the head. By 4 hr, most sperm were hyperactivated, swimming in circles resulting from asymmetrical, planar flagellar bending that was significantly more acute than the preceding patterns. When motility parameters of fresh sperm were compared with those of sperm swimming in the transitional helical pattern and with hyperactivated sperm, transitional sperm had significantly higher net and average path velocities than the others, indicating that they covered space at the greatest rate. This suggests that the transitional phase plays an important role in sperm transport. Sperm recovered from the proximal region of the caudal epididymis, near the corpus, swam in either the helical or hyperactivated patterns, or a mixture of the two. The means of their flagellar curvature ratios and linear indices were intermediate between helical and hyperactivated mean values. Thus, sperm undergoing final maturation in the caudal epididymis reverse the pattern of development of hyperactivation. Also, the development of hyperactivated motility must therefore entail induction of a preexisting potential for flagellar movement, rather than a maturational process.     

Zinc does not inhibit the capacitation of human spermatozoa in vitro

The effects of zinc on human sperm motility, fertilizing capacity (as assessed by penetration of human spermatozoa into the zona pellucida-free hamster oocyte), and nuclear chromatin decondensation were investigated using spermatozoa from four fertile donors. Both sperm motility and the penetration of sperm into zona-free hamster ova were consistently impaired in media containing 1,000 μM zinc. Spermatozoa from one man were similarly affected at a concentration of 500 μM zinc, but no adverse effects were noted at this zinc concentration in experiments with other donors. Since decreased fertilizing capacity in response to zinc was always accompanied by a significant decline in both the percentage of motile cells and mean swimming speeds, it appears that all of these results reflect a general toxic effect on the cells. At lower concentrations (125–250 μM), zinc had no effect on human sperm motility nor their ability to undergo capacitation and penetrate zona-free hamster ova in vitro. For some donors, zinc (125–500 μM) stimulated both the attachment of spermatozoa to the hamster vitellus and the incorporation of spermatozoa into the hamster ooplasm. The decondensation of human sperm nuclear chromatin in sodium dodecyl sulfate was largely inhibited when zinc was added to the medium, but no significant changes in nuclear stability were apparent after capacitation in zinc-free medium. We conclude that zinc, when present in subtoxic concentrations, does not adversely affect the ability of human spermatozoa to undergo capacitation and penetrate zona-free hamster ova in vitro.     

Evidence for Ca2+-dependent ATPase activity,stimulated by decapacitation factor and calmodulin,in mouse sperm

Membrane preparations from mouse sperm heads and tails were used in a γ³²P-ATP hydrolysis assay to investigate Ca²⁺-dependent ATPase activity. In membranes from sperm heads, but not tails, a Ca²⁺-dependent ATPase that was further stimulated by calmodulin was detected. The addition of partially purified mouse sperm decapacitation factor (DF) to head membrane preparations significantly stimulated Ca²⁺-ATPase activity, this effect being further increased in the presence of DF plus calmodulin; in contrast, no response was observed when the same treatment was applied to tail membranes. Sperm preincubated in the presence of trifluoperazine (TFP), a calmodulin antagonist, were significantly more fertile than cells from the same males incubated in the absence of TFP, indicating that inhibition of calmodulin accelerates capacitation. When sperm cells were preincubated briefly, then gently centrifuged to remove DF and resuspended in medium containing ⁴⁵Ca²⁺ ± DF, their ability to accumulate ⁴⁵Ca²⁺ was significantly lower in the early stages after resuspension in the presence of DF than in its absence. These data correlated with chlortetracycline analysis of the sperm functional state. When cells were centrifuged and resuspended in medium only, there was a noticeable shift from the F pattern (characteristic of uncapacitated cells) to the B pattern (characteristic of capacitated cells), but the reintroduction of DF caused a significant reversion to the F pattern. Finally, using a monoclonal antibody to somatic cell Ca²⁺-ATPase, we have obtained evidence that the enzyme is particularly localized to the postacrosomal region of the mouse sperm head; specific binding was observed only in permeabilized cells, indicating that the epitope involved in the binding has an intracellular location. Based on these various pieces of evidence, we propose that when present on mouse sperm, DF stimulates calmodulin-sensitive Ca²⁺-ATPase activity and thus ensures maintenance of a low intracellular Ca²⁺ concentration. As capacitation proceeds, DF is lost and Ca²⁺-ATPase activity declines, allowing intracellular Ca²⁺ to rise and promoting capacitation-related changes. The fact that inhibitors of Ca²⁺-ATPase and calmodulin appear to accelerate capacitation in several mammalian species, as determined by chlortetracycline analysis, suggests that Ca²⁺-ATPase activity may play an important role in modulating capacitation in many or even all mammals. © 1996 Wiley-Liss, Inc     

Effect of exogenous nitric oxide on sperm motility in vitro

Background

Nitric oxide (NO) has been shown to be important in sperm function, and the concentration of NO appears to determine these effects. Studies have demonstrated both positive and negative effects of NO on sperm function, but have not been able to provide a clear link between NO concentration and the extent of exposure to NO. To study the relationship between nitric oxide and sperm capacitation in vitro, and to provide a theoretical basis for the use of NO-related preparations in improving sperm motility for in vitro fertilization, we investigated the effects of NO concentration and time duration at these concentrations on in vitro sperm capacitation in both normal and abnormal sperm groups. We manipulated NO concentrations and the time duration of these concentrations using sodium nitroprusside (an NO donor) and NG-monomethyl-L-argenine (an NO synthase inhibitor).

Results

Compared to the normal sperm group, the abnormal sperm group had a longer basal time to reach the appropriate concentration of NO (p < 0.001), and the duration of time at this concentration was longer for the abnormal sperm group (p < 0.001). Both the basal time and the duration of time were significantly correlated with sperm viability and percentage of progressive sperm (p < 0.001). The experimental group had a significantly higher percentage of progressive sperm than the control group (p < 0.001).

Conclusions

We hypothesize that there is a certain regularity to both NO concentration and its duration of time in regards to sperm capacitation, and that an adequate duration of time at the appropriate NO concentration is beneficial to sperm motility.     

Role of the major ecto-phosphoprotein in sperm flagellar motility using a cell electroporation method

Previous studies from our laboratory have identified MPS, a 100-kDa protein, as the major phosphoprotein substrate of caprine sperm ecto-cyclic AMP independent protein kinase. In this study the isolated (32)P-labelled MPS has been incorporated into mature caprine (Capra indicus) cauda-epididymal spermatozoa with the help of cell electroporation technique to investigate the effect of MPS on sperm flagellar motility. The optimum conditions for electroporation of sperm cells consisted of exposure of 0.2 ml of sperm cells (2 x 10(8)/ml) to external electric field of intensity 1.5 kV/cm and capacitation of 25 microF at 4 degrees C and post-pulse incubation at 37 degrees C for 1 hr. when nearly 50% of the cells lost motility. Scanning electron micrographs (SEM) demonstrate the formation of micro-pores and local osmotic swelling in the electroporated spermatozoa. MPS incorporation was maximal when its concentration was 30 microg/ml (300 pmol) in the medium and when the post-pulse incubation time was 60 min. At maximum (75%) MPS incorporation, total and forward motility increments were also maximum: 34% (P < 0.01) and 32% (P < 0.01), respectively. The subcellular fractionation data show that major portion of the introduced MPS was bound to the plasma-membrane of spermatozoa. The 32P-labelled electrophoresed intact spermatozoa lost radioactivity due to the action of the endogenous ecto-phosphoprotein phosphatase. Therefore MPS is primarily localised on the sperm external surface leaving its phosphate group(s) oriented in the extracellular medium. The data provided further evidence to strengthen the view that MPS is an ecto-phosphoprotein and that it plays an important role in the regulation of sperm flagellar motility.     

The evolution of hamster sperm motility during capacitation and interaction with the ovum vestments in vitro

Movement characteristics of golden hamster spermatozoa were studied upon collection from the cauda epididymis, during an incubation which capacitates the spermatozoa in vitro, during penetration of the cumulus, and during attachment to and penetration of the zona pellucida. High-speed videomicrography was employed to quantitate flagellar beat frequency and shape. The status of the acrosome was also assessed. During capacitation, hamster spermatozoa become increasingly invigorated before the onset of hyperactivated motility. Within the cumulus, beat frequency and curvature are reduced, apparently in response to the physical resistive properties of the matrix material. These properties appear to vary within the cumulus. Initial attachment to the zona precedes completion of the acrosome reaction, is non-rigid, and is accompanied by increased beat frequency and curvature. Subsequently, the onset of rigid binding to the zona, completion of the acrosome reaction, and increased flagellar beat frequency are very closely associated in time. The latter produces an increase in thrust against the zona. Preliminary results indicate that ensuing zona penetration requires not more than five minutes, is at oblique angles, and is associated with a continuation of vigorous flagellar beating.     

An inositol 1,4,5-trisphosphate receptor-gated intracellular Ca(2+) store is involved in regulating sperm hyperactivated motility.

Hyperactivated motility, a swimming pattern displayed by mammalian sperm in the oviduct around the time of ovulation, is essential to fertilization. Ca(2+) has been shown to be crucial for the initiation and maintenance of hyperactivated motility. Nevertheless, how Ca(2+) reaches the axoneme in the core of the flagellum to switch on hyperactivation is unknown. Ca(2+)-releasing agents were used to determine whether an intracellular store provides Ca(2+) to the axoneme. Hyperactivation was induced immediately in bull sperm by thapsigargin, caffeine, and thimerosal. The responses were dose-dependent and were induced in both capacitated and uncapacitated sperm. When external Ca(2+) was buffered below 50 nM with 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid, the response to caffeine was significantly reduced; however, the responses to thapsigargin and thimerosal were not affected. This indicates caffeine-induced hyperactivation depends on external Ca(2+) influx, whereas hyperactivation by thapsigargin and thimerosal do not. Acrosome reactions were not induced by these treatments; therefore, an acrosomal store was probably not involved. Indirect immunofluorescence labeling showed type I inositol 1,4,5-trisphosphate receptors (IP(3)R) in the acrosome and neck region, but no ryanodine receptors (RyR) were found using anti-RyR antibodies or BODIPY FL-X ryanodine. These data indicate that there is an IP(3)R-gated Ca(2+) store in the neck region of sperm that regulates hyperactivated motility.     

Tyrosine phosphorylation signaling regulates Ca2+ entry by affecting intracellular pH during human sperm capacitation

Capacitation is a mandatory process for the acquisition of mammalian sperm fertilization competence and involves the activation of a complex and still not fully understood system of signaling pathways. Under in vitro conditions, there is an increase in both protein tyrosine phosphorylation (pTyr) and intracellular Ca²⁺ levels in several species. In human sperm, results from our group revealed that pTyr signaling can be blocked by inhibiting proline-rich tyrosine kinase 2 (PYK2). Based on the role of PYK2 in other cell types, we investigated whether the PYK2-dependent pTyr cascade serves as a sensor for Ca ²⁺ signaling during human sperm capacitation. Flow cytometry studies showed that exposure of sperm to the PYK2 inhibitor N-[2-[[[2-[(2,3-dihydro-2-oxo-1 H-indol-5-yl)amino]-5-(trifluoromethyl)-4-pyrimidinyl]amino]methyl]phenyl]- N-methyl-methanesulfonamide hydrate (PF431396) produced a significant and concentration-dependent reduction in intracellular Ca ²⁺ levels during capacitation. Further studies revealed that PF431396-treated sperm exhibited a decrease in the activity of CatSper, a key sperm Ca ²⁺ channel. In addition, time course studies during capacitation in the presence of PF431396 showed a significant and sustained decrease in both intracellular Ca ²⁺ and pH levels after 2 hr of incubation, temporarily coincident with the activation of PYK2 during capacitation. Interestingly, decreases in Ca ²⁺ levels and progressive motility caused by PF431396 were reverted by inducing intracellular alkalinization with NH ₄Cl, without affecting the pTyr blockage. Altogether, these observations support pTyr as an intracellular sensor for Ca ²⁺ entry in human sperm through regulation of cytoplasmic pH. These results contribute to a better understanding of the modulation of the polymodal CatSper and signaling pathways involved in human sperm capacitation.     

The motility of human spermatozoa as influenced by prostasomes at various pH levels.

Human semen contains several components among which spermatozoa, membranous vesicles called 'prostasomes', secreted by the prostate gland and unorganized material. Prostasomes possess an unusual lipid composition, contain a number of proteins and small molecules and have been claimed to take a part in the immune response, in seminal fluid liquefaction and in sperm motility. Since sperm may come in contact with an acidic environment in the vagina, it may be of some interest to know whether prostasomes may affect spermatozoon motility or may protect spermatozoa upon the exposure to an acidic milieu. Human semen was supplied by donors. From whole semen we collected spermatozoa by centrifugation and used the supernatant to prepare prostasomes (centrifugation at 105,000 g for 120 min, followed by purification step on Sephadex G 200); spermatozoa were then collected by a swim-up procedure and exposed to an acidic pH medium (from 5 to 7) in the presence or absence of prostasomes. Spermatozoa motility was subsequently assessed with a superimposed image analysis system (SIAS). Results indicate that the motility of spermatozoa was affected by the pH value of the medium. Acidic media reduced the percentage of motile cells and decreased the straight line velocity of spermatozoa (VLS). Prostasomes had a protective effect and increased the percentage of motile cells. However, they did not change the characteristics of motility (curvilinear and straight). Prostasomes may be considered as a system for counteracting the negative effects of acidic pH values that may be present in the vagina after coitus.     

Temperature dependence of capacitation in bat sperm monitored by zona-free hamster ova

The temperature dependence of capacitation in bat sperm (Myotis lucifugus lucifugus) was studied by monitoring fertilizations rates of zona-free hamster ova at different temperatures. Spermatozoa were cultured in BWW medium at temperatures 4°C, 24°C, 32°C, 42°C, and 55°C from 0–24 hr. Activation of sperm could be determined visually due to the change in movement seen through light microscopy. Activation was later confirmed by higher rates of fertilization. Preincubation of the bat sperm was found to have a direct effect on the success of penetration of the zona-free hamster ova. Holding bat spermatozoa at low temperature for long intervals allowed them to remain motile but unable to fertilize. Sperm are not irreversibly damaged, however, and activation, when the temperature is increased to 32°C, is faster than when sperm are intitially put at 32°C, resulting in good fertilization rates.     

An in vitro technique to study penetration of hamster oocyte-cumulus complexes by using physiological numbers of sperm

We have developed an inexpensive in vitro system for studying cumulus penetration and fertilization by using physiological numbers of sperm. This system simulates conditions believed to exist in vivo more closely than any in current usage. In this system, 1–100 hamster sperm are used to challenge fresh hamster oocyte-cumulus complexes (OCC). Only fresh (nonoviducal) OCC are used, as they present the most stringent challenge to sperm. Because sperm numbers are low, OCC do not disperse, and sperm can be studied microscopically during penetration of the cumulus oophorus and corona radiata. These conditions permit microscopic assessment of the sperm acrosome. Video tapes of experiments allow easy review and analysis of experiments. Results obtained employing this technique show that, in vitro, (1) capacitated, acrosome-intact hamster sperm can penetrate the extracellular matrix between cumulus cells and bind to the zona pellucida; (2) the “figure-eight motility” characteristic of hyperactivated hamster sperm swimming in culture medium is suppressed when sperm swim in the extracellular matrix between cumulus cells; and (3) fertilization occurs in capillary tubes when low numbers of sperm are used. The in vitro system that we have described will be useful in analyzing the mechanisms used by sperm to penetrate the cumulus and corona radiata and to clarify the role of the acrosomal enzymes in fertilization.     

Relationship between platelet-activating factor concentration in rhesus monkey (Macaca mulatta) spermatozoa and sperm motility.

Platelet-activating factor (PAF) is a potent signaling phospholipid that has been implicated in a number of biological activities. PAF concentration in primate spermatozoa has a positive correlation with fertility. While PAF is present in rhesus spermatozoa, there are no relational reports on its concentration and the cell's motility. The study objective was to determine if PAF concentration in rhesus spermatozoa was correlated with motility indices (percent motility and forward progression). Semen was collected from sexually mature males and cell counts, and percent motilities and forward progressions were recorded prior to PAF measurement by radioimmunoassay. Spermatozoa-derived PAF concentration ranged from a low of 0.9 picomoles/10(6) cells to a high of 13.0 picomoles/10(6) cells. The overall mean (+/-SEM) PAF concentration was 4.6 (+/-1.6) picomoles/10(6) spermatozoa. Regression analysis revealed a positive and significant relationship between PAF concentration in the spermatozoa and percent motility (R2 = 0.914; P < 0.01) as well as forward progression (R2 = 0.849; P < 0.05). A receiver-operator characteristic curve and the calculation of the probability that a positive forward progression will be predicted indicated a cutoff limit of 1.5 picomoles/10(6) cells for PAF concentration in rhesus sperm. Rhesus monkey spermatozoa motility was significantly greater (P < 0.01) in the high-PAF (> or =2 picomoles/10(6) cells) group (31.0 +/- 7.6) than in the low-PAF (<2 picomoles/10(6) cells) group (6.8 +/- 2.1). Rhesus monkey spermatozoa forward progression was significantly greater (P < 0.05) in the high-PAF (> or =2 picomoles/10(6) cells) group (3.0 +/- 1.0) than in the low-PAF (<2 picomoles/10(6) cells) group (0.7 +/- 0.3). The data demonstrate that PAF concentration in rhesus spermatozoa has a significant relationship with percent motility and the cell's forward progression. Determining PAF concentration in spermatozoa may be a significant predictor of fertility in the primate. Additional studies will elucidate the role of PAF in spermatozoa function and the significance PAF plays in primate fertility.     

Effect of cryopreservation on phosphorylation state of proteins involved in sperm motility initiation in sea bream

We have previously demonstrated that in sea bream Sparus aurata motility initiation determined changes in the phosphorylation state of some proteins. This paper describes an investigation of the effect of a freezing-thawing procedure on the protein phosphorylation/dephosphorylation pattern. Proteins extracted from fresh and cryopreserved spermatozoa (before and after motility activation) were separated on SDS-PAGE, blotted on nitrocellulose membrane and treated with anti-phosphotyrosine, anti-phosphothreonine, or anti-phosphoserine antibodies. The results obtained demonstrate that the cryopreservation protocol has a strong effect on the phosphorylation state of proteins. In general, compared to fresh sperm, phosphorylated proteins are most numerous in both activated and non-activated cryopreserved sperm, and in particular we observed a dramatic increase in threonine phosphorylation. However, frozen-thawed sperm showed a minor number of proteins that changed their phosphorylation state after motility activation. Among these, we identified the acetyl-coenzyme A synthetase that plays a role in sperm motility initiation in both fresh and cryopreserved sperm.     

Manipulated sperm motility via soot nanoparticles-induced biochemical alterations in human seminal plasma

Obtaining spermatozoa with progressive motility, via postejaculatory activation with pharmacological agents such as theophylline and pentoxifylline, is crucial for the success rate of assisted reproduction in couples with severe male factor infertility. Regrettably, the possibility of premature acrosome reactions and impared oocyte function questions the practical applicability of phosphodiesterase inhibitors. The rapid development of nanotechnologies promotes the use of hydrophobic rapeseed oil soot as a non-cytotoxic biomaterial for sperm motility activation, but the scarcity of knowledge regarding the interactions of soot with components from the seminal plasma hinders the eventual commercialization of this cutting-edge approach. Aiming to eliminate this shortcoming, the current study shows for the first time how the soot nanomaterials alter the biochemistry of human seminal plasma. Upon 270 min incubation with soot nanoparticles, the activity of AST, ALT, CK, LDH and GGT enzymes in the seminal plasma of ten patients changes inversely to the registered sperm motility (i.e., lower enzyme activity, higher sperm motility and vice versa). This phenomenon is primarily related to termination of the enzymes-substrate binding or extraction of enzymes from the gametes via chemical bonding with the soot. These novel mechanisms depend on the physicochemical features of used carbon nanomaterials, revealing opportunities for predictable tuning of the sperm reproductive potential.     

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.