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1.
The newt, Cynops pyrrhogaster, exhibits physiological polyspermic fertilization, in which several sperm enter an egg before egg activation. An intracellular Ca2+ increase occurs as a Ca2+ wave at each sperm entry site in the polyspermic egg. Some Ca2+ waves are preceded by a transient spike-like Ca2+ increase, probably caused by a tryptic protease in the sperm acrosome at the contact of sperm on the egg surface. The following Ca2+ wave was induced by a sperm factor derived from sperm cytoplasm after sperm–egg membrane fusion. The Ca2+ increase in the isolated, cell-free cytoplasm indicates that the endoplasmic reticulum is the major Ca2+ store for the Ca2+ wave. We previously demonstrated that citrate synthase in the sperm cytoplasm is a major sperm factor for egg activation in newt fertilization. In the present study, we found that the activation by the sperm factor as well as by fertilizing sperm was prevented by an inhibitor of citrate synthase, palmitoyl CoA, and that an injection of acetyl-CoA or oxaloacetate caused egg activation, indicating that the citrate synthase activity is necessary for egg activation at fertilization. In the frog, Xenopus laevis, which exhibits monospermic fertilization, we were unable to activate the eggs with either the homologous sperm extract or the Cynops sperm extract, indicating that Xenopus sperm lack the sperm factor for egg activation and that their eggs are insensitive to the newt sperm factor. The mechanism of egg activation in the monospermy of frog eggs is quite different from that in the physiological polyspermy of newt eggs.  相似文献   

2.
Jellyfish eggs neither undergo apparent cortical reaction nor show any significant change in the membrane potential at fertilization, but nevertheless show monospermy. Utilizing the perfectly transparent eggs of the hydrozoan jellyfish Cytaeis uchidae, here we show that the polyspermy block is accomplished via a novel mechanism: a collaboration between Ca2+ and mitogen-activated protein kinase (MAPK). In Cytaeis, adhesion of a sperm to the animal pole surface of an egg was immediately followed by sperm–egg fusion and initiation of an intracellular Ca2+ rise from this site. The elevated Ca2+ levels lasted for several minutes following the sperm–egg fusion. The Ca2+ rise proved to be necessary and sufficient for a polyspermy block, as inhibiting a Ca2+ rise with EGTA promoted polyspermy, and conversely, triggering a Ca2+ rise by inositol 1,4,5-trisphosphate (IP3) or excess K+ immediately abolished the egg’s capacity for sperm–egg fusion. A Ca2+ rise at fertilization or by artificial stimulations evoked dephosphorylation of MAPK in eggs. The eggs in which phosphorylated MAPK was maintained by injection of mRNA for MAPK kinase kinase (Mos), like intact eggs, exhibited a Ca2+ rise at fertilization or by IP3 injection, and shut down the subsequent sperm–egg fusion. However, the Mos-expressing eggs became capable of accepting sperm following the arrest of Ca2+ rise. In contrast, addition of inhibitors of MAPK kinase (MEK) to unfertilized eggs caused MAPK dephosphorylation without elevating Ca2+ levels, and prevented sperm–egg fusion. Rephosphorylation of MAPK by injecting Mos mRNA after fertilization recovered sperm attraction, which is known to be another MAPK-dependent event, but did not permit subsequent sperm–egg fusion. Thus, it is possible that MAPK dephosphorylation irreversibly blocks sperm–egg fusion and reversibly suppresses sperm attraction. Collectively, our data suggest that both the fast and late mechanisms dependent on Ca2+ and MAPK, respectively, ensure a polyspermy block in jellyfish eggs.  相似文献   

3.
In 27% DeBoer's saline (DBS), which yields maximum fertility rates, Xenopus eggs fertilized in vitro are monospermic, regardless of sperm concentration. One block to polyspermy (the “slow” block), described previously, occurs at the fertilization envelope that is elevated in response to the cortical reaction. This paper describes properties of an earlier, “fast” block at the plasma membrane and evaluates the functional significance of the two blocks at physiological sperm concentrations in natural mating conditions. Unfertilized eggs have a resting membrane potential of ?19 mV in 27% DBS. Fertilization triggers a rapid depolarization to +8 mV (the fertilization potential, FP); the potential remains positive for ca. 15 min. Activation of eggs with the ionophore, A23187, produces a slower but similar depolarization (the activation potential, AP). As in other amphibian eggs, the FP appears to result from a net efflux of Cl?, since the peak of the FP (or the AP in ionophore-activated eggs) decreases as the concentration of chloride salts in the medium is increased. In 67% DBS no FP or AP is observed; eggs fertilized in 67% DBS become polyspermic and average 2 sperm entry sites per egg. In the 5–37 mM range, I? and Br?, but not F?, are more effective than Cl? in producing polyspermy. In 20 mM NaI the plasma membrane hyperpolarizes in response to sperm or ionophore; 100% levels of polyspermy and an average of 14 sperm entry sites per egg are observed. NaI does not inhibit or retard elevation of the fertilization envelope; the cortical reaction and fertilization envelope are normal in transmission electron micrographs. In 67% DBS, which also inhibits the fast block, the slow block was estimated to become functional 6–8 min after insemination. Eggs fertilized by natural mating in 20 mM NaI exhibit polyspermy levels of 50–90% and average 5 sperm entry sites per egg. Since eggs become polyspermic when fertilized by natural mating under conditions that inhibit the fast, but not the slow, block to polyspermy, we conclude that the fast block is essential to the prevention of polyspermy at the sperm concentrations normally encountered by the egg.  相似文献   

4.
Polyspermy blocking, to ensure monospermic fertilization, is necessary for normal diploid development in most animals. We have demonstrated here that monospermy in the clawed frog, Xenopus tropicalis, as well as in X. laevis, is ensured by a fast, electrical block to polyspermy on the egg plasma membrane after the entry of the first sperm, which is mediated by the positive‐going fertilization potential. An intracellular Ca2+ concentration ([Ca2+]i) at the sperm entry site was propagated as a Ca2+ wave over the whole egg cytoplasm. In the X. tropicalis eggs fertilized in 10% Steinberg's solution, the positive‐going fertilization potential of +27 mV was generated by opening of Ca2+‐activated Cl?‐channels (CaCCs). The fertilization was completely inhibited when the egg's membrane potential was clamped at +10 mV and 0 mV in X. tropicalis and X. laevis, respectively. In X. tropicalis, a small number of eggs were fertilized at 0 mV. In the eggs whose membrane potential was clamped below ?10 mV, a large increase in inward current, the fertilization current, was recorded and allowed polyspermy to occur. A small initial step‐like current (IS current) was observed at the beginning of the increase in the fertilization current. As the IS current was elicited soon after a small increase in [Ca2+]i, this is probably mediated by the opening of CaCCs. This study not only characterized the fast and electrical polyspermy in X. tropicalis, but also explained that the initial phase of [Ca2+]i increase causes IS current during the early phase of egg activation of Xenopus fertilization.  相似文献   

5.
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.  相似文献   

6.
Since the first demonstration of sperm entry into the fertilized eggs of Mediterranean sea urchin Paracentrotus lividus by Hertwig (1876), enormous progress and insights have been made on this topic. However, the precise molecular mechanisms underlying fertilization are largely unknown. The two most dramatic changes taking place in the zygote immediately after fertilization are: (i) a sharp increase of intracellular Ca2+ that initiates at the sperm interaction site and traverses the egg cytoplasm as a wave, and (ii) the concomitant dynamic rearrangement of the actin cytoskeleton. Traditionally, this has been studied most extensively in the sea urchin eggs, but another echinoderm, starfish, whose eggs are much bigger and transparent, has facilitated experimental approaches using microinjection and fluorescent imaging methodologies. Thus in starfish, it has been shown that the sperm-induced Ca2+ increase in the fertilized egg can be recapitulated by several Ca2+-evoking second messengers, namely inositol 1,4,5-trisphosphate (InsP3), cyclic ADP-ribose (cADPr) and nicotinic acid adenine dinucleotide phosphate (NAADP), which may play distinct roles in the generation and propagation of the Ca2+ waves. Interestingly, it has also been found that the dynamic rearrangement of the actin cytoskeleton in the fertilized eggs plays pivotal roles in guiding monospermic sperm entry and in the fine modulation of the intracellular Ca2+ signaling. As it is well known that Ca2+ regulates the structure of the actin cytoskeleton, our finding that Ca2+ signaling can be reciprocally affected by the state of the actin cytoskeleton raises an intriguing possibility that actin and Ca2+ signaling may form a ‘positive feedback loop’ that accelerates the downstream events of fertilization. Perturbation of the cortical actin networks also inhibits cortical granules exocytosis. Polymerizing actin bundles also compose the ‘acrosome process,’ a tubular structure protruding from the head of fertilizing sperm. Hence, actin, which is one of the most strictly conserved proteins in eukaryotes, modulates almost all major aspects of fertilization.  相似文献   

7.
Extracellular Ca2+ is required for capacitation and fertilization in the mouse, but very little is known about the ability of other divalent cations to substitute for Ca2+. In this study, Sr2+, Ba2+, and Mg2+ were evaluated for their ability to support capacitation, the acrosome reaction, hyperactivated motility, and fertilization. Ba2+ proved to be ineffective, but Mg2+-containing medium was able to support capacitation to a greater extent than unsupplemented Ca2+-deficient media; despite this, Ca2+ was required for fertilization. In contrast, Sr2+ proved capable of substituting for Ca2+ in all events. Furthermore, Sr2+-induced responses were indistinguishable from the corresponding Ca2+-induced ones: Sperm capacitated at the same rate and underwent the acrosome reaction to the same extent. However, demonstration of sperm:egg fusion in Sr2+ required the use of zona-free eggs. This was due not to the inability of the sperm to penetrate the zona but to the very rapid activation and cortical granule release by eggs in response to Sr2+. When zona-intact eggs were used, the block to polyspermy had been mounted by the time sperm had penetrated the zona. A 15 min exposure to Sr2+ was sufficient to block sperm fusion, but a longer exposure was required to ensure the resumption of meiosis in eggs; such a response was surprising in that the eggs were freshly ovulated and not susceptible to activation by many different treatments. Thus Sr2+ can profoundly affect both gametes in the mouse: It substitutes completely for Ca2+ in sperm responses and rapidly activates eggs, possibly by displacing Ca2+ from intracellular stores into the cytoplasm, where the Ca2+ can then trigger the various events of activation.  相似文献   

8.
Background information. At fertilization in mammalian eggs, the sperm induces a series of Ca2+ oscillations via the production of inositol 1,4,5‐trisphosphate. Increased inositol 1,4,5‐trisphosphate production appears to be triggered by a sperm‐derived PLCζ (phospholipase C‐ζ) that enters the egg after gamete fusion. The specific phosphatidylinositol 4,5‐bisphosphate hydrolytic activity of PLCζ implies that DAG (diacylglycerol) production, and hence PKC (protein kinase C) stimulation, also occurs during mammalian egg fertilization. Fertilization‐mediated increase in PKC activity has been demonstrated; however, its precise role is unclear. Results. We investigated PLCζ‐ and fertilization‐mediated generation of DAG in mouse eggs by monitoring plasma‐membrane translocation of a fluorescent DAG‐specific reporter. Consistent plasma‐membrane DAG formation at fertilization, or after injection of physiological concentrations of PLCζ, was barely detectable. However, when PLCζ is overexpressed in eggs, significant plasma‐membrane DAG production occurs in concert with a series of unexpected secondary high‐frequency Ca2+ oscillations. We show that these secondary Ca2+ oscillations can be mimicked in a variety of situations by the stimulation of PKC and that they can be prevented by PKC inhibition. The way PKC leads to secondary Ca2+ oscillations appears to involve Ca2+ influx and the loading of thapsigargin‐sensitive Ca2+ stores. Conclusions. Our results suggest that overproduction of DAG in PLCζ‐injected eggs can lead to PKC‐mediated Ca2+ influx and subsequent overloading of Ca2+ stores. These results suggest that DAG generation in the plasma membrane of fertilizing mouse eggs is minimized since it can perturb egg Ca2+ homoeostasis via excessive Ca2+ influx.  相似文献   

9.
The role of ion fluxes in Nod factor signalling in Medicago sativa   总被引:4,自引:3,他引:1  
Using ion-selective microelectrodes, the basis of Nod factor-induced changes in the plasma membrane potential was analysed by measuring the extracellular free concentrations of Ca2+, K+, H+ and Cl in the root hair zone of alfalfa. After addition of the Rhizobium meliloti Nod factor NodRm-IV(C16:2,S) at a concentration of 0.1 μM, a decrease in [Ca2+] was observed first, which was followed after a few seconds by an increase of [Cl], by an alkalinization, and then by a delayed increase of [K+], all of which were transient changes. Simultaneously with the appearance of Cl ions in the root hair zone, a decrease in cytosolic [Cl] was measured. It was concluded that the depolarization was caused by temporary short-circuiting of the proton pump through the rapid release of Cl ions along their steep electrochemical gradient. Since under resting conditions the driving force for K+ ions was inwardly directed, their release was delayed until their driving force was inverted. This indicates that K+ serves as a charge balance that eventually stops depolarization and initiates repolarization. Since the decrease in [Ca2+] was observed seconds before the increase in [Cl] and the depolarization, it is argued that Ca2+ entering into the cell does not cause the depolarization directly, but might initiate it by triggering the activation of an anion channel that then releases the chloride ions. The observations that the Ca2+ ionophore A23187 mimicks the Nod factor response, and that the Ca2+ channel antagonist nifedipine inhibits this response, support the idea that Ca2+ plays a primary role in the transduction of the Nod signal in alfalfa.  相似文献   

10.
Microiontophoretic injection of calcium ions or of adenosine 3′:5′-cyclic monophosphoric acid (3′:5′-cAMP) causes fertilized eggs of Ilyanassa obsoleta to form a large lobe-like protuberance near the micropipet tip within 15–30 sec. A protuberance can be induced to form anywhere on the egg surface, i.e., animal hemisphere as well as vegetal hemisphere. Injections of comparable amounts of Na+, K+, Mg2+, Hepes buffer, seawater, guanosine 2′:3′-cyclic monophosphoric acid (2′:3′-cGMP), or guanosine 3′:5′-cyclic monophosphoric acid (3′:5′-cGMP) have no effect on cell shape. Injection of 2′:3′-cAMP causes slight changes in cell shape. Injection of Ca2+ generates a shape change in spherical eggs, as well as during all phases of normal polar lobe formation, but not when polar lobes are being resorbed. Injection of Ca2+ elicits a shape change only when injection currents exceed 120 nA and only when Ca2+ also is present in the exogenous bath solution. Cell shape changes causes by injection of 3′:5′-cAMP also are dependent upon a minimum current (approximately 300 nA) and upon the presence of exogenous Ca2+. These shape changes may depend upon exogenous Ca2+ either because the injections trigger a change in membrane permeability, or because exposure of eggs to Ca2+-free seawater lowers intracellular [Ca2+] to such an extent that threshold levels of Ca2+ are not attained during injection.  相似文献   

11.
Using a semi-chemically defined medium, the requirement of extracellular Ca2+ for survival, capacitation, and acrosome reaction of spermatozoa as well as various stages of fertilization in the hamster was studied. A Ca2+-deficient environment is unfavorable for long-term survival of spermatozoa. Sperm capacitation may occur in Ca2+-deficient media, but not as efficiently as in normal media. The acrosome reaction definitely requires extracellular Ca2+. Other processes or phenomena that require extracellular Ca2+ are initiation and maintenance of hyperactivated motility of spermatozoa, penetration of acrosome-reacted spermatozoa into the zona pellucida, fusion of the spermatozoa with eggs, and the development of pronuclear eggs into two-cell embryos. Extracellular Ca2+ is apparently unnecessary for the attachment of spermatozoa to the zona and egg surfaces, decondensation of the sperm nucleus, and the development of sperm and egg pronuclei within the egg. These results were compared with data obtained in other species such as the sea urchin, mouse, rat and guinea pig.  相似文献   

12.
The membrane potentials of sea urchin (Hemicentrotus pulcherrimus) eggs before and after fertilization and their changes during the membrane elevation induced by intracellular electrical stimulation were recorded in solutions of various ionic compositions. Upon fertilization, the membrane potential (?10 mV) depolarized and reversed polarity by a few mV, then gradually returned to a new steady level ranging between ?50 and ?60 mV. The activation potential is closely associated with a transient increase in the membrane permeability. The potential of the unfertilized egg is hyperpolarized by monovalent anions (Br?, Cl? and NO3?) and depolarized slightly by K+. In contrast, the membrane of the fertilized egg is markedly depolarized by K+. Suppression of depolarization associated with an increase of the membrane permeability was recorded in Na-free medium (Tris-HCl). The selective increase in permeability to monovalent anions is thought to alternate with the selective increase in permeability to K+through the mediation of a transient increase of Na+-permeability at the time of fertilization. No causal relationship between the membrane elevation and the depolarization was established because the breakdown of the cortical granules occurs without depolarization or an increase in membrane permeability.  相似文献   

13.
Successful collision rates of sperm with eggs and oocytes of the sea urchins Psammechinus microtuberculatus and Paracentrotus lividus have been studied using an electrophysiological method. A monospermic response in eggs consists of a 1- to 2-mV step depolarization of the egg plasma membrane accompanied by an increase in voltage noise. The step precedes the main positive-going depolarization by approximately 13 sec at room temperature. If other successful collisions occur during this 13-sec period (indicated by additional steps), the egg is polyspermic. It is shown by direct observation that each step depolarization signifies the entry of a single sperm. No evidence for an electrically mediated fast block was found. The average rate of successful sperm-egg encounters increases with sperm density, although individual steps appear to occur randomly. Step depolarizations also occur in oocytes, however, they usually decay after several seconds and are not followed by a large, positive-going depolarization. The rate of occurrence of such steps increases with sperm density over the range 105 to 109 sperm/ml. The original evidence of Rothschild and Swann for a fast partial block is compared with a model of polyspermy suggested by our experiments. Reasonable agreement between our method of counting successful collisions (in oocytes and eggs) and the method used by Rothschild and Swann (for eggs) was obtained for sperm densities below 106/ml. The results diverge for higher sperm densities, our method giving higher values. A test for the hypothesis of a fast partial block to polyspermy is suggested, using our method of counting successful sperm-egg collisions.  相似文献   

14.
Phosphatidylserine (PS) is normally localized to the inner leaflet of the plasma membrane and the requirement of PS translocation to the outer leaflet in cellular processes other than apoptosis has been demonstrated recently. In this work we investigated the occurrence of PS mobilization in mouse eggs, which express flippase Atp8a1 and scramblases Plscr1 and 3, as determined by RT-PCR; these enzyme are responsible for PS distribution in cell membranes. We find a dramatic increase in binding of flouresceinated-Annexin-V, which specifically binds to PS, following fertilization or parthenogenetic activation induced by SrCl2 treatment. This increase was not observed when eggs were first treated with BAPTA-AM, indicating that an increase in intracellular Ca2+ concentration was required for PS exposure. Fluorescence was observed over the entire egg surface with the exception of the regions overlying the meiotic spindle and sperm entry site. PS exposure was also observed in activated eggs obtained from CaMKIIγ null females, which are unable to exit metaphase II arrest despite displaying Ca2+ spikes. In contrast, PS exposure was not observed in TPEN-activated eggs, which exit metaphase II arrest in the absence of Ca2+ release. PS exposure was also observed when eggs were activated with ethanol but not with a Ca2+ ionophore, suggesting that the Ca2+ source and concentration are relevant for PS exposure. Last, treatment with cytochalasin D, which disrupts microfilaments, or jasplakinolide, which stabilizes microfilaments, prior to egg activation showed that PS externalization is an actin-dependent process. Thus, the Ca2+ rise during egg activation results in a transient exposure of PS in fertilized eggs that is not associated with apoptosis.  相似文献   

15.
Injection of sperm preparations into mammalian oocytes and eggs has been shown to elicit persistent [Ca2+]i oscillations that closely resemble fertilization-associated Ca2+ release. However, the ability of these sperm fractions to initiate egg activation has not been clearly demonstrated. In the present experiments, mouse eggs injected with a porcine sperm preparation were evaluated for early and late events of activation. Events monitored included, among early events, the generation of [Ca2+]i oscillations and cortical granule exocytosis and, among late events, the decrease in histone H1 and myelin basic protein kinase activities, polar body extrusion, pronuclear formation, and cleavage to the two-cell stage. Injection of sperm fractions consistently evoked [Ca2+]i oscillations that, in turn, initiated all events of activation. Uninjected control eggs or eggs injected with buffer or heat-treated sperm fractions failed to show Ca2+ responses or activation. In addition, injection of sperm fractions into recently ovulated eggs (experiments were concluded within 15 hr after human chorionic gonadotropin administration) induced high rates of activation, while similarly aged eggs exposed to 7% ethanol for 5 min, a known parthenogenetic treatment, failed to activate. Together these results indicate that injection of sperm fractions elicits [Ca2+]i oscillations that are capable of initiating normal egg activation. These results support the hypothesis that a sperm component participates in the generation of fertilization-associated [Ca2+]i oscillations. Mol. Reprod. Dev. 49:37–47, 1998. © 1998 Wiley-Liss, Inc.  相似文献   

16.
The role of the egg membrane potential in the prevention of polyspermy in Rana pipiens was studied with intracellular microelectrodes and ion-substituted media. At fertilization, the egg membrane potential shifts from a resting value of ?28 to +8 mV in a single step of less than 1 sec. A second, slower shift reaches a maximum amplitude of +17 mV; the membrane potential is positive for a total of 21 min. When the membrane potential of unfertilized eggs exposed to sperm was held at +1 to +22 mV for 30 min by injecting current through a second intracellular electrode, the initiation of the first cleavage furrow was delayed about 20 min, suggesting that the eggs were not fertilized while the membrane potential was positive. Injection of a similar amount of current after fertilization did not delay cleavage. Furthermore, fertilization in ion-substituted media suggests a correlation between the maximum amplitude of the positive-going shift and the incidence of polyspermy. Up to 25% of eggs were polyspermic when inseminated in the presence of NaI, and the maximum amplitude was reduced to ?20 mV when eggs were fertilized in 40 mM NaI. In contrast, fertilization in 40 mM NaCl reduced the maximum amplitude only to +6 mV, and produced no polyspermy. In solutions of NaBr, intermediate effects on the membrane potential and polyspermy were seen. Comparable results were obtained with the toad, Bufo americanus. We conclude that the membrane potential shift prevents polyspermy.  相似文献   

17.
One of the more striking morphological events during egg activation is exocytosis of the cortical granules. In the frog egg, the wave of cortical granule exocytosis takes about 100 sec to traverse the animal half, and travels slower in the vegetal half. We examined cortical granule exoctyosis during activation with respect to this animal/vegetal difference. In eggs which were acquiring the ability to be activated (recovering from CO2-intoxication or undergoing meiotic maturation), animal half cortical granules became capable of responding to activating stimuli prior to vegetal half ones. Since Ca2+ is involved in exocytosis, we examined the effect of Ca2+ on cortical granule breakdown in vitro. There was no difference in sensitivity to Ca2+ of cortical granules from immature vs. mature eggs, but animal half cortical granules were more sensistive to Ca2+ than vegetal half ones. Finally, we found that prick-activation of eggs at the vegetal pole was frequently unsuccessful but would occur when external Ca2+ was raised. These experiments show that there are regional differences in the frog egg with respect to cortical granule responsiveness, and they suggest that the differences are due to Ca2+ sensitivity.  相似文献   

18.
Alison Taylor  Colin Brownlee 《Planta》1993,189(1):109-119
The electrical properties of unfertilized eggs of Fucus serratus L. were characterized using voltage clamp and current clamp with single electrodes. The plasma membrane of the unfertilized egg is excitable. Depolarizing the egg in current clamp induced a transient depolarizing voltage response, the amplitude of which was dependent on the presence of external Ca2+ or Ba2+ and was blocked by La3+. The repolarizing phase was blocked by tetraethylammonium ions. Repeated stimulation at frequencies greater than 0.5 Hz caused a transient loss of excitability. Voltage-clamp experiments revealed that an inward current with an activation threshold of -35 mV underlies the depolarizing phase of the voltage response. This current showed rapid activation and slow inactivation. The current was blocked by La3+ and could be carried by Ca2+ and Ba2+ but not by Sr2+ or Na+. Further depolarization to values more positive than-5 mV induced a slowly activating outward K+ current in addition to the inward current, which corresponded to the repolarizing phase of the voltage response. This K+ current showed little or no inactivation during stimulation and slow deactivation on return to the resting potential. Hyperpolarizing the egg elicited an inward current. On fertilization, the Fucus egg generates a depolarizing fertilization potential. Voltage-clamp experiments revealed an inward fertilization current underlying the fertilization potential. Within 15 min of fertilization a dramatic, irreversible increase in resting K+ permeability developed. The roles of the plasma-membrane channels in generation of the fertilization potential and egg activation are discussed.Abbreviations and Symbols ASW artificial seawater - SECC single-electrode current clamp - SEVC single-electrode voltage clamp - TEA tetraethylammonium - Vm membrane potential This work was supported by The Marine Biological Association U.K., Science and Engineering Research Council U.K. and The Royal Society of London.  相似文献   

19.
The mechanisms underlying the Ca2+ release at fertilization of several animal organisms are reported. Four main classical theories are described, i.e., that of Ca2+ release following simple sperm contact and a G protein stimulation; that of simple sperm contact followed by a tyrosine kinase receptor activation; that of the necessity of introduction by sperm into the egg of molecules for Ca2+ release; and that the molecule introduced into the marine eggs for Ca2+ release is the same Ca2+. Two other mechanisms for Ca2+ release are also illustrated: that of ryanodine receptor stimulation and that of NAADP formation.  相似文献   

20.
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.  相似文献   

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