Allurin, a 21 kD sperm chemoattractant, is rapidly released from the outermost jelly layer of the Xenopus egg by diffusion and medium convection

Allurin, a 21 kD protein from Xenopus laevis egg jelly, has been demonstrated to attract sperm by video microscopy and by quantitative chemotaxis chamber assays. Here, we use immunocytochemistry to demonstrate that this sperm chemoattractant is located in the outermost layer of egg jelly (J3) and is rapidly released into the surrounding medium. SDS-PAGE analysis and Western blotting confirm the appearance of allurin in the medium within 1.5 min and separation of proteins in the medium by anion exchange FPLC, shows that nearly half of the allurin released over a 12-hr period is discharged in the first 5 min. The kinetics of allurin release from J3 and its appearance in the medium were quantitatively accounted for, by computer simulation of mathematical diffusion and convection models. Comparison of simulation data to quantitative measurements of allurin appearance in the medium suggests that allurin, although larger than most chemoattractants, is effectively dispersed by a combination of diffusion and medium mixing at the jelly surface during spawning. Our model further predicts that the innermost jelly layer, J1, is less permeable to allurin than the other layers, allowing it to act as a "reflector" to speed up allurin discharge.     

Molecular Reproduction & Development Volume 78, Issue 6 cover image

Artist's rendition of Xenopus sperm swimming in the jelly layers as they approach the egg surface. Burnett et al. (this issue) fi nd that water soluble components of this jelly layer directly interact with sperm, thereby initiating chemotactic motility towards the egg. Original art by Douglas Chandler.     

Purification and multimer formation of allurin, a sperm chemoattractant from Xenopus laevis egg jelly

Allurin, a sperm chemoattractant isolated from Xenopus laevis egg jelly, can be purified in one step from an extract of diffusible jelly proteins ("egg water") using a FPLC or HPLC anion exchange column and a multi-step NaCl gradient. Allurin homomultimers were detected by Western blotting with antibodies prepared against the purified protein or peptides within the protein. Allurin multimers were stable and resisted dissociation by SDS and beta-mercaptoethanol. Alkylation of allurin provided evidence for two free sulfhydryl groups but did not eliminate multimer formation, suggesting that intermolecular disulfide bond formation is not required for allurin aggregation. Concentration of egg water was accompanied by a reduction of chemoattractant activity that could not be fully accounted for by homomultimer formation. Rather, the presence of a multiphasic dose-activity curve upon partial purification and formation of hetero-allurin complexes during concentration suggested that egg water may contain allurin-binding proteins that reduce multimer formation and activity.     

Egg jelly influences sperm motility in the externally fertilizing frog,Crinia georgiana

Recent in vitro fertilization studies have revealed female and male × female interaction effects on the probability of fertilization. These findings suggest a mechanism of cryptic female choice via sperm–egg interactions. The egg jelly of anuran amphibians contains proteins that facilitate the chemoattraction and binding of sperm for fertilization. Here we show that egg jelly also influences the onset of motility and swimming velocity of motile sperm in the frog Crinia georgiana. Moreover, we found significant among female variation in the effects of egg jelly on sperm motility. We discuss this finding with respect to male and female effects on nonrandom fertilization observed in this species.     

Mouse sperm exhibit chemotaxis to allurin, a truncated member of the cysteine-rich secretory protein family

Allurin, a 21 kDa protein isolated from egg jelly of the frog Xenopus laevis, has previously been demonstrated to attract frog sperm in two-chamber and microscopic assays. cDNA cloning and sequencing has shown that allurin is a truncated member of the Cysteine-Rich Secretory Protein (CRISP) family, whose members include mammalian sperm-binding proteins that have been postulated to play roles in spermatogenesis, sperm capacitation and sperm–egg binding in mammals. Here, we show that allurin is a chemoattractant for mouse sperm, as determined by a 2.5-fold stimulation of sperm passage across a porous membrane and by analysis of sperm trajectories within an allurin gradient as observed by time-lapse microscopy. Chemotaxis was accompanied by an overall change in trajectory from circular to linear thereby increasing sperm movement along the gradient axis. Allurin did not increase sperm velocity although it did produce a modest increase in flagellar beat frequency. Oregon Green 488-conjugated allurin was observed to bind to the sub-equatorial region of the mouse sperm head and to the midpiece of the flagellum. These findings demonstrate that sperm have retained the ability to bind and respond to truncated Crisp proteins over 300 million years of vertebrate evolution.     

Crisp proteins and sperm chemotaxis: discovery in amphibians and explorations in mammals

Crisp proteins appear to play multiple roles in the life history of sperm. One of these roles is to act as a sperm chemoattractant. Allurin, a 21 kDa Crisp protein rapidly released from the egg jelly of at least two frogs, X. laevis and X. tropicalis, elicits directed motility in both homospecific and heterospecific sperm. In X. tropicalis, allurin is coded for by the newly documented Crisp A gene. Recently, the observation that allurin can also elicit chemotaxis in mouse sperm raises the question of whether allurin-like proteins might act as sperm chemoattractants in mammals. Although an allurin gene has yet to be documented in mammals, Crisp proteins truncated post-translationally appear to exist in both the male and female reproductive tract of mammals.     

Egg jelly proteins stimulate directed motility in Xenopus laevis sperm

Previously we have shown that extracts from Xenopus egg jelly (egg water) increase the passage of sperm through a porous membrane in a dose‐dependent manner. Although this assay has shown that sperm accumulation occurs only in the presence of an egg water gradient, it has not revealed the dynamic features of how Xenopus sperm swim in such gradients. Here, we use video microscopic observations to trace sperm trajectories in a Zigmond chamber. Our results show that Xenopus sperm swim in linear and gently curving paths and only infrequently perform turns. In the presence of an egg water gradient, however, the percent of sperm swimming up the gradient axis and the net distance traveled by each sperm along this axis was increased significantly. There was no change in curvilinear velocity. Rather, the orientation of sperm travel was shifted to more closely match that of the gradient axis. In addition, using a porous filter assay, we demonstrate that the egg water protein allurin, in both purified and recombinant forms, stimulates directed motility of sperm. Finally, we use Oregon Green 488‐conjugated allurin to show that this protein binds primarily to the sperm midpiece; binding of allurin to the entire head was observed in a minor subpopulation of sperm. Dose dependence of allurin binding occurred over the 0–1 µg/ml range and correlated well with previously published dose‐dependent sperm attraction data. Binding was rapid with a half‐time of about 10 sec. These data suggest that egg water proteins bind to sperm and modify sperm‐orienting behavior. Mol. Reprod. Dev. 78:450–462, 2011. © 2011 Wiley‐Liss, Inc.     

Rhesus monkey sperm cryopreservation with TEST-yolk extender in the absence of permeable cryoprotectant

Recently, there has been increased interest in ultra-rapid freezing with mammalian spermatozoa, especially for vitrification in the absence of cryoprotectants. Sperm cryopreservation in non-human primates has been successful, but the use of frozen-thawed sperm in standard artificial insemination (AI) remains difficult, and removal of permeable cryoprotectant may offer opportunities for increased AI success. The present study intended to explore the possibility of freezing rhesus monkey sperm in the absence of permeable cryoprotectants. Specifically, we evaluated various factors such as presence or absence of egg yolk, the percentage of egg yolk in the extenders, and the effect of cooling and thawing rate on the success of freezing without permeable cryoprotectants. Findings revealed that freezing with TEST in the absence of egg yolk offers little protection (<15% post-thaw motility). Egg yolk of 40% or more in TEST resulted in decreased motility, while egg yolk in the range of 20-30% yielded the most motile sperm. Cooling at a slow rate (29 °C/min) reduced post-thaw motility significantly for samples frozen with TEST-yolk alone, but had no effect for controls in the presence of glycerol. Similarly, slow thawing in room temperature air is detrimental for freezing without permeable cryoprotectant (<2% motility). In addition to motility, the ability of sperm to capacitate based on an increase in intracellular calcium levels upon activation with cAMP and caffeine suggested no difference between fresh and frozen-thawed motile sperm, regardless of treatment. In summary, the present study demonstrates that ejaculated and epididymal sperm from rhesus monkeys can be cryopreserved with TEST-yolk (20%) in the absence of permeable cryoprotectant when samples were loaded in a standard 0.25-mL straw, cooled rapidly in liquid nitrogen vapor at 220 °C/min, and thawed rapidly in a 37 °C water bath. This study also represents the first success of freezing without permeable cryoprotectant in non-human primates.     

Reduction of the fertilizing capacity of sea urchin sperm by cannabinoids derived from marihuana. I. Inhibition of the acrosome reaction induced by egg jelly.

delta 9-Tetrahydrocannabinol (THC) and two other major cannabinoids derived from marihuana--cannabidiol (CBD) and cannabinol (CBN)--inhibit fertilization in the sea urchin Strongylocentrotus purpuratus by reducing the fertilizing capacity of sperm (Schuel et al., 1987). Sperm fertility depends on their motility and on their ability to undergo the acrosome reaction upon encountering the egg's jelly coat. Pretreatment of S. purpuratus sperm with THC prevents triggering of the acrosome reaction by solubilized egg jelly in a dose (0.1-100 microM) and time (0-5 min)-dependent manner. Induction of the acrosome reaction is inhibited in 88.9 +/- 2.3% of sperm pretreated with 100 microM THC for 5 min, while motility of THC-treated sperm is not reduced compared to solvent (vehicle) and seawater-treated controls. The acrosome reaction is inhibited 50% by pretreatment with 6.6 microM THC for 5 min and with 100 microM THC after 20.8 sec. CBN and CBD at comparable concentrations inhibit the acrosome reaction by egg jelly in a manner similar to THC. THC does not inhibit the acrosome reaction artificially induced by ionomycin, which promotes Ca2+ influx, and nigericin, which promotes K+ efflux. THC partially inhibits (20-30%) the acrosome reaction induced by A23187, which promotes Ca2+ influx, and NH4OH, which raises the internal pH of the sperm. Addition of monensin, which promotes Na+ influx to egg jelly or to A23187, does not overcome the THC inhibition. Inhibition of the egg jelly-induced acrosome reaction by THC produces a corresponding reduction in the fertilizing capacity of the sperm. The adverse effects of THC on the acrosome reaction and sperm fertility are reversible.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sperm motility in the horseshoe crab,Limulus polyphemus L: I. Sperm behavior near eggs and motility initiation by egg extracts

Limulus spermatozoa are nonmotile when spawned and become motile only after encountering a sperm motility initiating factor (SMI) exuded by the egg. SMI extracts (produced by washing intact eggs with distilled water, lyophilizing the supernatant to dryness, and redissolving the dried extract in artificial seawater, ASW) initiate sperm motility in the absence of eggs. Utilizing such SMI extracts, sperm motility initiation was found to be unaffected by changes in temperature from 16 to 30°C, pH from 6.3 to 8.6, and salinity from 85 to 125% ASW. Within these ranges, sperm motility initiation was an “all-or-nothing” response, with greater than 99% of the spermatozoa becoming motile. Also, each sperm swam with apparently the same speed (at a given temperature) until spontaneously stopping within 10 min after the addition of SMI extracts. Evidence was found that SMI may bind irreversibly to a receptor, which is inactivated within a few seconds or minutes, leading to the observed cessation of motility. Observations of sperm behavior near intact eggs showed no evidence of chemotaxis. Spermatozoa observed to swim toward intact eggs progressed with a uniform speed and were motile less than 5 sec from initiation of motility until attaching to the egg. The presence of an all-or-nothing response to SMI, the independence of sperm motility to experimental parameters, and several other characteristics of the animal and its spermatozoa make Limulus a potentially excellent model animal for examination of sperm motility control mechanisms.     

Sperm motility-initiating activity in the egg jelly of the externally-fertilizing urodele amphibian, Hynobius lichenatus

Low osmolality initiates sperm motility during the external fertilization of aquatic anuran amphibians. It is thought that this process occurs also in urodeles, but this has not been fully examined in these species. We report here that fertilization was achieved in the externally fertilizing hynobiid, Hynobius lichenatus, by direct insemination onto the egg jelly surface without initial exposure of the sperm to a hypoosmotic solution. To identify the factors in addition to low osmolality that initiate sperm motility in Hynobius, we suspended the sperm of this amphibian in egg jelly extract (JE), and about 90% began to move within 1 min. This indicated the presence of a substance in JE that promotes motility initiation, as is also the case in the newt, Cynops pyrrhogaster. To examine whether this JE factor is homologous to the sperm motility-initiating substance (SMIS) in the newt, we tested for possible inter-species cross-reactivity of the JE. The percentage of moving Cynops sperm was increased to 67% in Hynobius JE at 5 min, and 65% of the Hynobius sperm began to move in Cynops JE within 1 min, indicating that JE is indeed cross-reactive between these species of salamander and newt. Concomitantly, pretreatment of Hynobius JE with Fab fragments of a Cynops SMIS monoclonal antibody resulted in a decreased number of moving Hynobius sperm. Immunoblotting further suggested that the substance in Hynobius JE responsible for motility initiation has an 18 kDa molecular mass, with an isoelectric point at 7.5.     

Peptide-induced hyperactivation-like vigorous flagellar movement in starfish sperm

Asterosap, a sperm-activating peptide (SAP) from the starfish egg jelly coat, is diffusible and controls a cGMP-signalling pathway in starfish sperm in the same manner as resact, a potent chemoattracting SAP in sea urchins. This fact suggests that asterosap may serve as a chemoattractant like resact at concentrations with appropriate gradients. Since asterosap is one of three egg jelly components, which in concert induce the acrosome reaction, it is still worthwhile to evaluate how asterosap modulates sperm motility prior to this reaction. We analysed the flagellar movement of sperm of the starfish Aphelasterias japonica in artificial seawater (ASW) containing the asterosap isoform P15 at 1 micromol l(-1). We found that sperm swim straighter with more symmetrical flagellar movement in P15 than in ASW, but without any significant difference in the flagellar beat frequency and the swimming velocity. The flagellar movement is, however, dramatically different between sperm firmly attached to the solid surface by the head in P15 and those attached in ASW: in P15 the flagellum bends to a greater extent, with higher curvature and with higher shear angle up to a right angle to the flagellar wave axis, and beats at an increased frequency. The vigorous flagellar movement of sperm, which can be activated when sperm are placed in high-load circumstances just as entering into a jelly layer, may increase propulsive forces and hydrodynamic resistances, allowing sperm to undergo the acrosome reaction as effectively as possible.     

Characteristics of sperm of captive seabass in relation to its fertilization potential

Seabass Dicentrarchus labrax sperm concentration was high (up to 60 × 10⁹ spz ml⁻¹) but decreased significantly at the end of the reproductive season (mid-March) in monthly sampled fish. The spermiation period may be shortened by frequent stripping. Sperm can be prediluted up to 1: 128 in non-activating medium without loss of initial motility and motility duration. Immediately after activation by transfer to sea water, all the spermatozoa were motile for 10 s and then the number of motile cells decreased progressively but sharply to zero, so that the duration of sperm motility was very short (40 s). As a consequence, the fertility of seabass sperm decreased exponentially after 10 s following sperm activation and was zero by 1 min. The sperm requirements for optimal fertilization were c . 66 000 spermatozoa per egg. Scalingup of the experimental insemination procedure yielded better fertilization rates while conserving the individual differences due to the breeder pairs.     

Xenopus laevis egg jelly contains small proteins that are essential to fertilization.

The eggs of Xenopus laevis are surrounded by investment layers of egg jelly that interact with the sperm immediately prior to fertilization. Components of these egg jelly layers are necessary for the fertilization of the egg by incoming sperm. Eggs which are stripped of their jelly layers are refractile to fertilization by sperm, but the addition of solubilized jelly promotes fertilization. We have shown previously that the egg jelly layers are composed of a fibrous network of glycoconjugates which loosely hold smaller diffusible components. Extracts of these diffusible components were prepared by incubation of freshly ovulated eggs in high-salt buffers for 12 h at 4 degrees C. This diffusible component extract, when incubated with sperm, promoted the sperm's ability to fertilize dejellied eggs in a dose-dependent manner. In contrast, the high-molecular-weight "structural" glycoconjugates of jelly that remain after extraction of the diffusible components did not increase fertilization efficiency of dejellied eggs nor did nonspecific proteins, carbohydrate polymers, or organic polymers. The diffusible components, analyzed by SDS-PAGE, consisted of a mixture of proteins from 4 to 180 kDa. The protein responsible for fertilization rescue appeared to be <50 kDa and appeared to self-aggregate or to bind to larger proteins. This protein component was required during sperm binding to the egg, its action required an intact egg vitelline envelope, and its action was independent of large soluble polymers such as Ficoll.     

Unusual motility characteristics of sperm of the spotted wolffish

Unlike the sperm of most teleosts, that of the spotted wolffish Anarhichas minor is motile on stripping, remains motile for at least 2 days and loses motility when exposed to sea water. Computer assisted sperm analysis (CASA) was used to quantitatively examine the motility characteristics of spotted wolffish sperm. Straight line velocity (VSL), beat cross frequency (BCF) and percentage motility were the most sensitive indicators of movement. Sperm trajectories were very different to those of other teleosts examined, showing large side-to-side movements of the sperm head and a more 'wiggly' behaviour which may be an adaptation to swimming in the viscous gelatinous egg mass. VSL was not altered by pH from 5·0 to 9·0, but was lower at pH 4·5. It was highest at 200 to 500 mOsm and decreased rapidly at <200 mOsm and more slowly at >500 mOsm. It is suggested that the unusual characteristics of spotted wolffish sperm in its trajectory and duration of motility, its release in a fully activated state and its greatly decreased motility in both fresh and sea water are related to a spawning strategy involving mixing of sperm with eggs contained in a gelatinous mass rather than release directly into water in proximity to the ova.     

Fertilization of investment-free Xenopus eggs

The vitelline envelope of unfertilized Xenopus egg can be removed manually after treating the dejellied eggs for 10 min with 20% (w/v) sucrose in F-1 saline. Fertilization occurred in 52% of the eggs denuded in this way when UV-solubilized jelly was added to the sperm-egg mixture; without the jelly the level of fertilization was only 6%. Fertilization did not occur synchronously in the denuded eggs; the average delay between insemination and fertilization was 19 +/- 18 min.     

Respiratory behaviour of sea-urchin spermatozoa. I. Effect of pH and egg water on the respiratory rate.

Effects of pH and egg water on the respiration of sea-urchin spermatozoa were polarographically studied in three sea-urchins and one starfish species. Sea-urchin sperm respiration is extremely sensitive to change in the pH of the suspending medium over a wide range. In normal-sea water, the pH of the sperm suspension decreased from 8.02 to 7.62, after four to five minutes' incubation at 18 degrees C. The Respiratory Dilution Effect could be recognized in the same medium. However, when sea water was buffered with HEPES at pH 8.2, the Effect was no longer observed. The diffusate from egg water (jelly coat solution) brought about a striking increase in the respiration when added to moderately respiring spermatozoa in HEPES-sea water of pH values lower than 7.9. No inccrease in the respiration was observed when the diffusate was added to vigorously respiring spermatozoa in HEPES-sea water of pH values higher than 8.2. Sperm motility was also inhibited by acid pH, and this inhibition was reversed by the addition of the diffusate. It does not seem that there is any species-specificity among three sea-urchins and one starfish used. The role of the diffusate is discussed in relation to the penetration of spermatozoa through the jelly coat to the egg surface.     

Xenopus laevis Egg Jelly Contains Small Proteins That Are Essential to Fertilization

The eggs of Xenopus laevis are surrounded by investment layers of egg jelly that interact with the sperm immediately prior to fertilization. Components of these egg jelly layers are necessary for the fertilization of the egg by incoming sperm. Eggs which are stripped of their jelly layers are refractile to fertilization by sperm, but the addition of solubilized jelly promotes fertilization. We have shown previously that the egg jelly layers are composed of a fibrous network of glycoconjugates which loosely hold smaller diffusible components. Extracts of these diffusible components were prepared by incubation of freshly ovulated eggs in high-salt buffers for 12 h at 4°C. This diffusible component extract, when incubated with sperm, promoted the sperm's ability to fertilize dejellied eggs in a dose-dependent manner. In contrast, the high-molecular-weight “structural” glycoconjugates of jelly that remain after extraction of the diffusible components did not increase fertilization efficiency of dejellied eggs nor did nonspecific proteins, carbohydrate polymers, or organic polymers. The diffusible components, analyzed by SDS–PAGE, consisted of a mixture of proteins from 4 to 180 kDa. The protein responsible for fertilization rescue appeared to be <50 kDa and appeared to self-aggregate or to bind to larger proteins. This protein component was required during sperm binding to the egg, its action required an intact egg vitelline envelope, and its action was independent of large soluble polymers such as Ficoll.     

The outermost layer of egg-jelly is crucial to successful fertilization in the newt, Cynops pyrrhogaster

The significance of egg-jelly layers in internal fertilization was evaluated in the newt, Cynops pyrrhogaster. In this species, six egg-jelly layers, J1, J2, J3, J4, J5 and the outermost J6 layers, are accumulated on the surface of the fertilizable eggs in pars convoluta of the oviduct. When a large number of sperm (about 6 x 10(5)) were placed on eggs having different numbers of jelly layers, all the eggs were fully fertilized, although many of the eggs developed abnormally. Upon insemination using about 600 sperm, only eggs with the full set of jelly layers were fertilized at a high rate with normal development. Since around 300 (the range of 48-1,192) sperm were observed on and in the egg-jelly in naturally spawned eggs, we conclude that the J6 layer must be present on the outermost surface of the egg-jelly for successful internal fertilization of the newt. Previous studies have suggested that the J6 layer is a prerequisite for the initiation of sperm motility and the acrosome reaction. In the present study, the fertilization rate decreased in eggs with a full set of jelly layers when inseminated using acrosome-reacted and motile sperm. However, the fertilization rate was high when motile sperm with intact acrosome was used. These results suggest that induction of the sperm acrosome reaction in the J6 layer is an important step in the internal fertilization of the newt.     

Long lasting stickleback sperm; is ovarian fluid a key to success in fresh water?

Although the sperm of externally fertilizing fishes usually has a brief life span of up to a few minutes, this study showed that the sperm of the three-spined stickleback Gasterosteus aculeatus moved for several hours in brackish water and up to at least 10 h in the presence of ovarian fluid. Three-spined sticklebacks were able to spawn in waters ranging from full-strength sea water to fresh water, an ability unusual among fishes. The influence of salinity on sperm motility was examined, using three-spined sticklebacks from sea (salinity 30), brackish (5·5) and freshwater (0) populations. All three populations were found to have sperm with long motility periods in brackish water, lasting 165–270 min. Seawater three-spined sticklebacks had sperm motile for up to 65 min in sea water, whereas sperm from fresh- and brackish-water fish were quiescent in this medium. In fresh water, sperm from all three populations showed a very brief motility period, lasting <60 s. The presence of ovarian fluid, however, prolonged the motility period of sperm from both fresh- and brackish-water three-spined sticklebacks, for up to 7 and 10 h in fresh and brackish water, respectively, with some sperm found to be motile for up to 24 h. The results indicated that ovarian fluid created a favourable environment for the sperm and might have facilitated the three-spined sticklebacks' successful penetration of fresh water.