Modulation of post-thaw sperm functions with oviductal proteins in buffaloes

A study was undertaken to determine the effects of oviductal proteins obtained from various stages of the estrous cycle on spermatozoa characteristics in buffaloes. Oviducts were collected from apparently healthy buffalo genital tracts (nonluteal and luteal stage of estrous cycle) and separated into isthmus and ampulla. Each segment of oviduct (nonluteal and luteal) was flushed with PBS (pH 7.4). The flushing obtained was centrifuged (3000 rpm; 30 min), filtered (0.2 microm) and frozen at -20 degrees C. The proteins in pooled nonluteal isthmic and ampullary and luteal isthmic and ampullary fluids were precipitated overnight using ammonium sulphate, centrifuged (10000 rpm; 30 min) and dialyzed (>10 kDa). After protein estimation, aliquots of samples containing 10 mg proteins were lyophilized in cryovials and stored in frozen form at -20 degrees C. Six pooled good-quality ejaculates collected by artificial vagina method from two Murrah buffalo bulls were utilized for the study. After fresh semen analysis, each pooled ejaculate was splited into five parts and extended in Tris-egg yolk-citrate extender (20% egg yolk; 7% glycerol), so that final dilution yielded approximately 60 million sperm cells per ml, and cryopreserved in 0.5 ml French straws (30 million sperm cells/straw) in LN(2) (-196 degrees C). Before freezing, nonluteal isthmic and ampullary and luteal isthmic and ampullary proteins were incorporated at the rate of 1mg/ml of extended semen. The equilibrated and frozen-thawed (37 degrees C for 30 s) semen was evaluated for motility, live %, acrosomal integrity percentage, bovine cervical mucus penetration test and hypo-osmotic sperm swelling test. Besides this, spermatozoa from treatment and control groups were incubated at 37 degrees C for 6 h in sperm TALP. Among the nonluteal and luteal oviductal proteins, the former maintained higher (P < 0.05) post-thaw sperm motility, live %, and acrosomal integrity than the control group. Between the isthmic and ampullary proteins, the isthmic proteins incorporated group maintained higher (P < 0.05) post-thaw sperm motility, live %, and acrosomal integrity. Similarly, higher sperm penetration distance in cervical mucus was recorded in nonluteal isthmic proteins incorporated group. But, irrespective of the stage of an estrous cycle, isthmic proteins included group maintains higher sperm membrane integrity as revealed by higher (P < 0.05) swollen sperm percentage in response to hypo-osmotic solution than the ampullary proteins included and control groups. Similarly, at any time during incubation the sperm motility and viability was higher (P < 0.05) in isthmic proteins treated group than the ampullary and control group. But, the same trend was not observed in terms of acrosomal integrity percentages. It is inferred that inclusion of oviductal proteins in the extender prior to freezing improved post-thaw semen quality. Oviductal proteins differentially affected sperm function depending upon the region of oviduct and the stage of estrous cycle at which the proteins were obtained.     

PDC-109 (BSP-A1/A2) promotes bull sperm binding to oviductal epithelium in vitro and may be involved in forming the oviductal sperm reservoir

Sperm reservoirs have been found in the oviducts of several species of mammals. In cattle, the reservoir is formed by the binding of sperm to fucose-containing glycoconjugates on the surface of oviductal epithelial cells. A fucose-binding molecule was purified from sperm extracts and identified as PDC-109 (BSP-A1/A2), a protein that is secreted by the seminal vesicles and associates with the plasma membrane of sperm upon ejaculation. The objective of this study was to demonstrate that PDC-109 promotes bull sperm binding to oviductal epithelium. PDC-109 was purified from bovine seminal plasma, and polyclonal antibodies were produced in rabbits. The antibodies detected PDC-109 on ejaculated sperm by indirect immunofluorescence and Western blots of extracts, but PDC-109 was not detected on epididymal sperm. When added to epididymal sperm, purified PDC-109 was absorbed onto the plasma membrane overlying the acrosome, as demonstrated by indirect immunofluorescence and by labeling sperm directly with fluorescein-conjugated PDC-109. When added to explants of oviductal epithelium, significantly fewer epididymal sperm than ejaculated sperm became bound. Addition of PDC-109 to epididymal sperm increased epithelial binding to the level observed for ejaculated sperm. In addition, binding of ejaculated sperm to oviductal epithelium was inhibited by addition of excess soluble PDC-109. Ejaculated sperm lost the ability to bind to oviductal epithelium after heparin-induced capacitation, but treatment with PDC-109 restored binding. These results demonstrate that PDC-109 enables sperm to bind to oviductal epithelium and plays a major role in formation of the bovine oviductal sperm reservoir.     

Identification of ampullary and isthmic oviductal fluid proteins that associate with the bovine sperm membrane

The objective of this study was to define the complement of ampullary and isthmic oviductal fluid proteins that associate with the sperm membrane during the non-luteal and luteal stages of the oestrous cycle. Oviductal fluid was obtained from three dairy cows via indwelling cannulae in the ampulla and isthmus of the same oviduct. Daily samples of oviductal fluid were combined by region and stage of the cycle to create pools consisting of non-luteal isthmic, luteal isthmic, non-luteal ampullary, and luteal ampullary oviductal fluid. An aliquot from each oviductal fluid pool was biotinylated by incubation in biotin reagent. Spermatozoa from three fertile bulls were pooled, washed and incubated for 4 h in each of the four pools of biotinylated oviductal fluid. After incubation, sperm membrane proteins were solubilized, and proteins subjected to one-dimensional sodium dodecyl sulfate polyacrylamide gel electrophoresis and western blotting. The biotinylated oviductal fluid proteins that associated with the sperm membranes were detected by avidin–horseradish peroxidase and diaminobenzidine substrate. Eight oviductal fluid proteins with apparent molecular weights of 97, 75, 66, 55, 48, 34, 28 and 24 kDa were consistently detected to associate with the sperm membrane. Differences in ampullar and isthmic fluid proteins that associated with sperm during the luteal and non-luteal stage of the oestrous cycle were not detected.     

Biochemical and morphological characterization of the intra-acrosomal antigen SP-10 from human sperm

The human sperm protein SP-10 was previously defined as a "primary vaccine candidate" by a World Health Organization Taskforce on Contraceptive Vaccines. By one- and two-dimensional immunoblots, we show that SP-10, extracted from ejaculated human sperm, demonstrated a polymorphism of immunogenic peptides from 18 to 34 kDa, a pattern that was conserved from individual to individual and was not altered by reducing agents. The majority of the antigenic peptides possessed isoelectric points of approximately 4.9. Immunocytochemistry on testis sections indicated that SP-10 was localized to round spermatids and spermatozoa within the adluminal compartment of the seminiferous epithelium. Immunofluorescence showed that SP-10 was not associated with the surface of acrosome-intact, ejaculated sperm. Light and electron microscopic immunocytochemistry localized SP-10 throughout the acrosome, and electron microscopic evidence demonstrated a bilaminar array in association with the inner aspect of the outer acrosomal membrane and the outer aspect of the inner acrosomal membrane. After induction of the acrosome reaction with the ionophore A23187, SP-10 remained displayed on the sperm head in association with the inner acrosomal membrane and equatorial segment. The results indicate that the MHS-10 monoclonal antibody may be used as a marker of acrosome development in the human and as a probe to evaluate acrosome status. The results also support the hypothesis that inhibition of sperm-egg interaction by anti-SP-10 monoclonal antibody may occur as a result of antigen exposure following the acrosome reaction.     

Oviductal fluid modulates the dynamics of tyrosine phosphorylation in cryopreserved boar spermatozoa during capacitation

Following insemination, spermatozoa are retained in the utero‐tubal junction and isthmic region of the oviduct, where essential steps of capacitation are coordinated. Although a majority of the spermatozoa is exposed to similar conditions in the oviduct, the speed of the response varies depending on the individual male and the state of the spermatozoa. The present study evaluated individual boar variations in terms of the ability of spermatozoa to undergo tyrosine phosphorylation in response to isthmic oviductal fluid (ODF). Cryopreserved spermatozoa from four boars were incubated with pre‐ and post‐ovulatory ODF for 6 hr. Sperm kinematics, global protein tyrosine phosphorylation, and dynamics of different phosphorylation patterns were analyzed at hourly interval. The percentage of phosphorylated spermatozoa in the pre‐ovulatory ODF‐treated group was significantly (P < 0.001) higher than in the other treatment groups. Motility, velocity, and protein tyrosine phosphorylation in spermatozoa in response to ODF and control media also showed differences between boars. Spermatozoa from all four boars showed strong expression of a 19‐kDa phosphoprotein while spermatozoa from two boars showed additionally strong expression of a 32‐kDa phosphoprotein when incubated with pre‐ovulatory ODF. While phosphorylation of proteins in the acrosome and the equatorial segment of the sperm were noticed at an early stage during incubation with ODF, tail phosphorylation appeared at a later stage of capacitation. The results indicate individual variation between boars in terms of sperm proteins, including different phosphorylation patterns, in response to ODF, which might be related to fertility.Mol. Reprod. Dev. 79: 525‐540, 2012. © 2012 Wiley Periodicals, Inc.     

Monosaccharides are not detected in whole or isthmic bovine oviductal fluid collected throughout the estrous cycle, as analyzed by HPLC

In the bovine oviduct, monosaccharides may play a role in the preparation of gametes for fertilization. Sperm are sequestered in the isthmic region of the oviduct where capacitation, requisite biochemical changes in sperm membranes, may take place. Retention of spermatozoa in the oviductal isthmus is dependent on a carbohydrate recognition system between oviductal epithelium and sperm membrane lectins. The monosaccharide, fucose, has been found to be important to this recognition system. However, both gametes and epithelium are also bathed in oviductal fluid (ODF), and fucose or other monosaccharides may be constituents of ODF and so may be important to sperm binding to oviductal epithelium and subsequent preparation for fertilization. In this study, ODF from dairy cows was analyzed by HPLC for the presence of 5 monosaccharides (fucose, galactose, glucosamine, mannose and xylose). Both whole ODF, collected by cannulation of the entire oviduct of 1 cow over a complete estrous cycle, and regional staged ODF, collected and pooled from 13 cows from the isthmic region only at estrus, were analyzed. We report negligible concentrations of all 5 monosaccharides in both types of ODF analyzed. Because the detection limit of our assay was 10(8) times lower than fucose concentrations found to be physiologically important in earlier in vitro studies, we conclude that bovine ODF does not contain physiologically active levels of free fucose or other, similar monosaccharides at any time of the estrous cycle.     

Effect of oviductal fluid proteins on buffalo sperm characteristics during cryopreservation

The objective was to determine the effects of oviductal proteins on sperm function. Abbatoir-derived buffalo oviducts were flushed with PBS; the fluid recovered (protein concentration, 2.3 mg/mL; average of 3.5 mg protein/oviduct) was centrifuged, dialyzed, and clarified, and the supernatant applied to a Heparin-Sepharose affinity column. Unbound fractions were collected and bound proteins were separately eluted (with elution buffer). Eight distinct protein bands (from 12 to 177 kDa) in the H-unbound fraction and 15 distinct protein bands (from 12 to 165 kDa) in the H-bound fraction were detected in SDS-PAGE. Semen from four buffalo bulls was divided into three parts: Parts 1 and 2 were treated with the heparin binding (H-bound) and non-heparin binding (H-unbound) oviductal proteins, respectively, whereas Part 3 remained as an untreated control. Equilibrated and frozen-thawed semen was assessed for motility, viability, intact acrosome percentage, mucus penetration distance, and hypo-osmotic swelling test. The H-bound oviductal fluid proteins enhanced (P<0.05) the proportion of sperm that were progressively motile, alive, had an intact acrosome and functional plasma membrane (hypo-osmotic swelling test), as well as the distance covered in the cervical mucus sperm penetration test during cryopreservation. Addition of the H-unbound oviductal protein fraction did not increase sperm motility and penetration distance but increased (P<0.05) the proportion of sperm that were live, had an intact acrosome, and functional plasma membrane (hypo-osmotic swelling test). We concluded that the H-bound fraction of buffalo oviductal fluid protein(s) maintained sperm motility, viability and membrane integrity during cryopreservation, whereas the H-unbound proteins maintained sperm viability and membrane integrity.     

Lectin binding sites on the plasma membrane of epididymal and ejaculated chimpanzee sperm

Lectins have been used to analyze variations in the distribution and density of exposed saccharides of the sperm plasma membrane during physiologic maturation and after ejaculation. Studies have been conducted in a number of nonprimate species but have been conducted to only a limited extent in nonhuman primates. In this study, pure suspensions of chimpanzee sperm from the caput and cauda epididymis and from the ejaculate were labeled with lectins conjugated to fluorescein isothiocyanate in order to visualize changes in the distribution of exposed membrane glycocomponents. The lectins used were Con A, DBA, RCA-I, and WGA. Con A binding showed minimal change during epididymal transit, with an increased binding to the flagellum after ejaculation. DBA binding was relatively constant in all specimens. RCA-I showed distinct changes in binding pattern between epididymal and ejaculated sperm. On ejaculated sperm strong fluorescence was limited to the posterior head and to the midpiece. WGA binding increased during epididymal passage and decreased after ejaculation. There appears to be a wide variety of saccharide groups available for lectin binding on the surface of epididymal and ejaculated chimpanzee sperm. The general similarity in binding patterns of caput and cauda epididymal chimpanzee sperm exposed to Con A and DBA might reflect the fact that sperm morphology does not change during epididymal transit in this species, thus implying a more stable membrane structure than is present in other primates so far studied.     

In vitro-cultured bovine oviductal cells bind acrosome-intact sperm and retain this ability upon sperm release

The mammalian oviduct plays a key role in sperm storage, capacitation, and selection. Specific oviduct secretions and/or binding to oviductal cells are thought to be responsible for the extension of the fertile life span of sperm. In this in vitro study, a quantitative assay for sperm binding was developed to analyze the mechanisms of sperm-oviductal cell adhesion and release in the bovine species. Distribution and acrosomal status of sperm bound to in vitro-cultured ampullary and isthmic cell monolayers were followed until the time of sperm release by means of fluorescence labeling techniques. In order to understand whether release is due to surface changes of sperm or oviductal cells, double incubation experiments with unlabeled and Hoechst-labeled sperm have been performed. Main findings demonstrate that (1) only acrosome-intact sperm bind specific bovine oviductal epithelial cells; (2) acrosomes of bound sperm are preserved intact over time; and (3) release of unreacted sperm is likely to be due to changes of the sperm surface, probably triggered by capacitation. These findings support the hypothesis that binding to oviductal cells is essential for preserving the sperm fertilization competence during the interval from the onset of estrus to ovulation.     

Bovine seminal plasma proteins PDC-109, BSP-A3, and BSP-30-kDa share functional roles in storing sperm in the oviduct

On ejaculation, sperm become coated with proteins secreted by the male accessory sex glands. In the bull, these proteins consist predominantly of the bovine seminal plasma family of proteins (BSPs): PDC-109 (BSP-A1/-A2), BSP-A3, and BSP-30-kDa. PDC-109 plays a role in forming an oviductal sperm reservoir by enabling sperm to bind to oviductal epithelium. Because PDC-109 has high sequence identity with the other BSPs, we tested BSP-A3 and BSP-30-kDa for the capacity to bind sperm to oviductal epithelium. BSP-A3 and BSP-30-kDa each increased binding of epididymal sperm to epithelium and were as effective as PDC-109 in competitively inhibiting binding of ejaculated sperm. Because binding extends the motile life of sperm, BSPs were tested for the ability to maintain sperm motility. BSP-treated epididymal sperm incubated with plasma membrane vesicles from bovine oviductal epithelium maintained progressive motility longer than untreated sperm. To our knowledge, this is the first report of this protective effect of BSPs. Similarities in function among the BSPs were reflected in their three-dimensional structure, whereas surface maps of electrostatic potential indicated differences in binding affinities and kinetics. Such differences may provide sperm with greater adaptability to variations among females. Altogether, these results indicate that BSPs play a crucial role in fertilization by maintaining sperm motility during storage.     

Adsorption of oviductal fluid proteins by the bovine sperm membrane during in vitro capacitation.

125I-labeled oviductal fluid (ODF) proteins and antiserum to ODF were used to determine whether ODF proteins associate with the sperm membrane during in vitro capacitation. Luteal and nonluteal pools of ODF were obtained from oviduct catheters during the estrous cycle. Washed sperm (50 x 10(6) sperm/ml) were incubated up to 4 h in a protein-free modified Tyrode's medium (MTM), or MTM supplemented with 40% ODF, or 0.5 ng 125I-labeled ODF proteins. Solubilized sperm membrane proteins and incubation media containing ODF proteins were separated by gel electrophoresis. Membranes isolated from bovine sperm, previously incubated with ODF, adsorbed five 125I-proteins: A doublet at 85-95 kDa, and others at 24, 34, 53, and 66 kDa. The amount of 66 kDA 125I-protein associated with the sperm decreased during the incubation, whereas the amount of 85 to 95-kDa protein did not. Western blot analyses also detected the presence of ODF proteins (53, 66, 85-95, and 116 kDa) in solubilized membranes from sperm incubated in ODF. The 85 to 95-kDa protein in ODF decreased in apparent molecular weight by 5 kDa when associated with the sperm membrane. At 53 kDa, ODF proteins which associated with sperm were transformed from two to three separate proteins. These studies indicate that the surface of sperm is modified by adsorption of ODF proteins to the membrane during in vitro capacitation.     

Evidence for plasma membrane impermeability to small ions in acrosome-intact mouse spermatozoa bound to mouse zonae pellucidae, using an aminoacridine fluorescent pH probe: time course of the zona-induced acrosome reaction monitored by both chlortetracycline and pH probe fluorescence

Previous studies have shown that capacitated mouse spermatozoa bind to zonae pellucidae of mouse eggs with acrosomes apparently intact. The question addressed in this study was the following: are the membrane permeability barriers of the apparently acrosome-intact sperm still retained or is there a preliminary stage of the acrosome reaction in which these barriers are lost and the intracellular space becomes accessible to extracellular substrates? The experimental approach was to use the fluorescent pH probe 9-amino-3-chloro-7-methoxyacridine, which accumulates in intracellular spaces of lower pH than the suspending medium with the result that the cells become fluorescent. Freshly capacitated mouse spermatozoa bound to isolated zonae showed uniform fluorescence over the head and midpiece with this fluorescent probe at early times of binding. The fluorescence was abolished by NH4+ and nigericin, agents that equilibrate H+ across cell membranes. At these early times of binding, the acrosomes were fully intact as judged by chlortetracycline fluorescence pattern, which itself was unaffected by either N4+ or nigericin. The time course of the loss of this chlortetracycline pattern characteristic of acrosome-intactness was closely paralleled by loss of fluorescence of 9-amino-3-chloro-6-methoxyacridine over the first 90 min; thereafter, loss of the chlortetracycline pattern was somewhat more rapid. This result shows that acrosome-intact sperm bound to zonae pellucidae retain the permeability barriers of the plasma membrane to small cations; no evidence was found for an early stage of membrane "leakiness" preceding the acrosome reaction. The ionophore A23187 induced a very rapid acrosome reaction in sperm bound to isolated zonae, as judged with both fluorescence probes. This rapid reaction was partially inhibited by 3-quinuclidinyl benzilate, which, in the absence of ionophore, completely blocks the occurrence of the acrosome reaction in sperm bound to zonae. This suggests involvement of a specific calcium entry mechanism in the acrosome reaction of mouse sperm induced by mouse zonae pellucidae.     

Regional heterogeneity of human spermatozoa detected with monoclonal antibodies

The regional antigenic heterogeneity of human spermatozoa is confirmed with 6 monoclonal antibodies raised against ejaculated human spermatozoa. The topographical localization of the antigenic determinants suggests the existence of at least 6 domains on the human spermatozoon. Different fixatives had severe detrimental effects on the antigen-antibody binding. On live human spermatozoa, each antibody bound to a distinct region: acrosome, equatorial segment, entire tail, neck, midpiece and terminal piece. The antigens detected on the acrosome, equatorial segment and entire tail were surface components, whereas the other three were intracellular structures. The determinant present along the entire tail was a sperm-coating antigen. The molecular weights of the recognized antigens were estimated with the Western blot technique. Immunostaining of individual ejaculates established that the percentages of positive cells were 12-56% for the acrosome, 8-35% for the equatorial segment, 90-100% for the entire tail, 20-52% for the neck, 9-35% for the midpiece and 36-90% for the terminal piece. In addition, labelling of motile and immotile spermatozoa showed differences in the percentages of positive cells, with 5 out of 6 monoclonal antibodies, or in the fluorescence intensity, with the last one labelling the entire tail.     

The effect of oviductal fluid on protein tyrosine phosphorylation in cryopreserved boar spermatozoa differs with the freezing method

Sperm capacitation takes place in the oviduct and protein tyrosine phosphorylation of sperm proteins is a crucial step in capacitation and acquisition of fertilizing potential. Cryopreserved spermatozoa show altered expression of protein tyrosine phosphorylation in the oviduct. The present study compared two freezing methods (conventional-conventional freezing (CF) and simplified-simplified freezing (SF) methods) for their effect on the ability of boar spermatozoa to undergo protein tyrosine phosphorylation in response to oviductal fluid (ODF). Cryopreserved boar-spermatozoa were incubated with pre- and post-ovulatory ODF for 6 h at 38 °C under 5% CO₂. Aliquots of sperm samples were taken at hourly intervals and analyzed for kinematics and protein tyrosine phosphorylation. Global protein tyrosine phosphorylation in spermatozoa was measured using flow cytometry and different patterns of phosphorylation were assessed using confocal microscopy. Immediately after thawing, no significant difference was observed in post-thaw sperm motility, velocity and global tyrosine phosphorylation between the two methods of freezing although the freezing method significantly (P < 0.05) influenced the effect of oviductal fluid on these parameters during incubation. While spermatozoa frozen by the CF method showed a significantly higher (P < 0.001) proportion of phosphorylation in response to preovulatory ODF during incubation, spermatozoa frozen by the SF method did not elicit such significant response as there was no significant difference in the proportion of tyrosine phosphorylated spermatozoa between treatments at any given time during incubation. If the CF method was used, the proportion of spermatozoa displaying either tail or full sperm phosphorylation increased in response to both preovulatory (EODF) and postovulatory oviductal fluid. However, if the SF method was used, a significant increase in these patterns was noticed only in the EODF treated group. The present study demonstrates that preovulatory isthmic ODF induce tyrosine phosphorylation in a higher proportion of boar spermatozoa compared to the post-ovulatory fluid and that the method of freezing significantly influences the response of post-thaw spermatozoa to porcine ODF.     

Redistribution of a rat sperm epididymal glycoprotein after in vitro and in vivo capacitation.

Rat epididymal glycoprotein DE (37 kDa) associates with the sperm surface during maturation and is localized over the dorsal region of the acrosome. In the present study we examine, by indirect immunofluorescence, the localization of DE after in vitro and in vivo capacitation. While 49% of sperm capacitated in vitro for 5 hr still presented fluorescence over the dorsal region, 51% showed labeling distributed over a domain that corresponds to the equatorial segment of the sperm head. This change in the localization of fluorescence was not associated with sperm deterioration or death and increased gradually as a function of capacitation time, reaching the maximum at 5 hr. The presence of labeling over the equatorial segment results from protein migration and cannot be induced by permeabilization, proteinase, or high ionic strength treatments. The omission of Ca2+ from the standard capacitation medium inhibited the relocalization of DE, and incubation with Ca2+ ionophore A23187 for induction of the acrosome reaction (AR) significantly raised the percentage of cells with DE localized over the equatorial region. Finally, while free and cumulus-associated spermatozoa recovered from the oviducts of in vivo inseminated females presented 15% and 21% of cells with redistribution respectively, all perivitelline (acrosome reacted) spermatozoa showed DE over the equatorial segment. These results indicate that epididymal protein DE migrates to the equatorial segment under in vitro and in vivo capacitating conditions and suggest a possible association between the redistribution of DE and the occurrence of the AR.     

Hyaluronan and its binding proteins in the epithelium and intraluminal fluid of the bovine oviduct

Hyaluronan (HA) is involved in several important steps of sperm storage and of fertilization. This study investigates the presence and concentration of HA in oviductal fluid (ODF), together with the localization of HA and the presence of hyaluronan-binding proteins (HABPs) in the oviductal epithelium of normally cycling dairy heifers and cows. The concentration and amount of HA in ODF, collected over the course of several oestrous cycles via catheters placed in the isthmic and ampullar tubal segments, were measured using an ELISA. The concentration and amount of HA in ODF did not vary significantly between these anatomical regions, nor between the stages of the oestrous cycle (p > 0.05), although the amount of HA seemed to peak during oestrous. The most HA per day (2.9 +/- 0.64 microg, least square mean +/- SEM) was produced on the day of ovulation, whereas the lowest amount (1.25 +/- 0.68 microg) was produced 4 days before ovulation. To investigate the localization of HA, tissue samples were retrieved at well-defined stages of the oestrous cycle and from corresponding regions of the oviduct. Sections and protein extracts from the tissue samples were studied histochemically using biotinylated HABP and immunoblotted with fluorescein isothiocyanate (FITC)-HA, respectively. Presence of HA labelling in the oviductal epithelium was restricted to the sperm reservoir, a localization that seemed to be cycle-independent. The immunoblotting of samples from the lining epithelium revealed seven bands of HABPs. We confirm that the bovine oviduct produces HA and its binding proteins, and that HA is mainly localized to the epithelium of the sperm reservoir.     

Ability of sulfated glycoconjugates and disulfide-reductants to release bovine epididymal sperm bound to the oviductal epithelium in vitro

In Bos taurus, at ejaculation, epididymal sperm acquire a number of proteins secreted in the seminal plasma that increase their ability to interact with the female reproductive tract. Sperm-oviduct interaction comprises a transient sperm adhesion to the isthmus, the lower portion of the oviduct, followed by sperm release around ovulation. Oviductal fluid molecules, such as sulfated glycoconjugates and disulfide-reductants, are able to release bovine ejaculated sperm bound to the oviductal epithelium in vitro through the reduction of sperm surface protein disulfides to sulfhydryls. To understand whether the sperm molecules sensitive to releasing signals are already exposed on the surface of epididymal sperm, we studied the ability of cauda epididymal sperm to adhere to the oviductal epithelium and to be released by sulfated glycoconjugates and the disulfide-reductant penicillamine. Surface protein sulfhydryls in cauda epididymal sperm were analyzed in the initial suspension, in sperm bound to the in vitro-cultured oviductal epithelium, and in released sperm. Results showed that epididymal sperm are able to bind the oviductal epithelium in vitro, although at a lower extent than frozen-thawed ejaculated sperm; the interaction is mediated by oviductal cell microvilli that closely bind to the plasma membrane of the sperm head rostral region, as previously shown for ejaculated sperm. The sulfated glycoconjugates heparin, fucoidan, and dextran sulfate, as well as the disulfide-reductant penicillamine, are all powerful inducers of sperm release. The level of sulfhydryls in sperm surface proteins was (1) high in the initial sperm suspension; (2) low in bound sperm; (3) markedly increased in sperm released by heparin or by penicillamine. In conclusion, epididymal sperm are already able to bind the oviductal epithelium and to respond to the inducers of release through the reduction of sperm surface protein disulfides to sulfhydryls.     

Prostaglandin E2-specific binding to the equine oviduct.

Prostaglandin E2 (PGE2) bound specifically (P less than 0.001) to ampullary and isthmic tissue on Day 2 and Day 5 after ovulation. No significant differences (P greater than 0.8) were detected between Day 2 and Day 5 in the specific binding of ampullary or isthmic tissue. Significantly more (P less than 0.05) PGE2 bound specifically to ampullary versus isthmic tissue on both days. Detection of PGE2-specific binding in the oviductal isthmus on Day 2 and Day 5 indicates that the oviduct is responsive to PGE2 when it is capable of transporting equine embryos.     

Post-testicular development of a novel membrane substructure within the equatorial segment of ram,bull, boar,and goat spermatozoa as viewed by atomic force microscopy

Atomic force microscopy has been used to investigate changes in the plasma membrane overlying the head region of mammalian spermatozoa (bull, boar, ram, goat, stallion, mouse, and monkey) during post-testicular development, after ejaculation, and after exocytosis of the acrosomal vesicle. On ejaculated ram, bull, boar, and goat spermatozoa the postacrosomal plasma membrane has a more irregular surface than that covering the acrosome. The equatorial segment, by contrast, is relatively smooth except for an unusual semicircular substructure within it that has a coarse uneven appearance. This substructure (referred to as the equatorial subsegment) is situated adjacent to the boundary between the postacrosomal region and the equatorial segment itself and seems to be confined to the order Artiodactyla as it has not been observed on stallion, mouse, or monkey spermatozoa. The equatorial subsegment develops during epididymal maturation, and following induction of the acrosome reaction with Ca(2+) ionophore A23187, its topography changes from a finely ridged appearance to that resembling truncated papillae. A monoclonal antibody to the equatorial subsegment binds only to permeabilized spermatozoa, suggesting that the subsegment is related to the underlying perinuclear theca that surrounds the sperm nucleus. A role for the equatorial subsegment in mediating fusion with the oolemma at fertilization is discussed.     

Identification of actin in boar spermatids and spermatozoa by immunoelectron microscopy

Actin was localized in testicular spermatids and in ionophore-treated ejaculated sperm of boar by use of a monoclonal anti-actin antibody labeled with colloidal gold. With the on-grid postembedding immunostaining of Lowicryl K4M sections, actin was identified in the subacrosomal region of differentiating spermatids, in the microfilaments of the surrounding Sertoli cells, and in the myoid cells of the tubular wall. Ejaculated sperm, labeled with the preembedding method, showed actin between the plasma membrane and the outer acrosomal membrane of the equatorial segment. Indirect immunofluorescence was positive in the equatorial segment and in the acrosomal cap of intact sperm, whereas reacted sperm at the anterior head region retained fluorescence only in the inner acrosomal membrane. Rhodamine-phalloidin failed to stain intact and reacted sperm. The distribution of actin in sperm head membranes (inner acrosomal membrane, membranes of the equatorial segment), which are retained after the acrosome reaction, is discussed.