Sperm transport and survival in the mare

Following the deposition of semen in the mares uterus, spermatozoa must be transported to the site of fertilization, be maintained in the female tract until ovulation occurs, and be prepared to fertilize the released ovum. Sperm motility, myometrial contractions, and a spontaneous post-mating uterine inflammation are important factors for the transport and survival of spermatozoa in the mares reproductive tract. Fertilizable sperm are present in the oviduct within 4 hours after insemination. At this time, the uterus is the site of a hostile inflammatory environment. Our data suggest that spermatozoa trigger an influx of polymorphonuclear neutrophils (PMNs) into the uterine lumen via activation of complement. Furthermore, seminal plasma appears to have a modulatory effect on the post-mating inflammation through its suppressive effect on PMN chemotaxis and migration. Spermatozoa that safely have reached the oviduct can be stored in a functional state for several days, but prolonged sperm storage in the female tract is not required for capacitation and fertilization in the horse. The caudal isthmus has been proposed as a sperm reservoir in the mare. The pattern of sperm transport and survival of spermatozoa in the mares reproductive tract are different between fertile and subfertile stallions, between fertile and some infertile mares, and between fresh and frozen-thawed semen. Possible explanations for these differences include a selective phagocytosis of damaged or dead spermatozoa, impaired myometrial activity in subfertile mares, bio-physiological changes of spermatozoa during cryopreservation, and the removal of seminal plasma during cryopreservation of equine semen.     

Sperm transport and survival in the mare: a review

After the deposition of semen in the mare's uterus, spermatozoa must be transported to the site of fertilization, be maintained in the female tract until ovulation occurs, and be prepared to fertilize the released ovum. Sperm motility, myometrial contractions, and a spontaneous post-mating uterine inflammation are important factors for the transport and survival of spermatozoa in the mare's reproductive tract. Fertilizable sperm are present in the oviduct within 4 h after insemination. At this time, the uterus is the site of a hostile inflammatory environment. Our data suggest that spermatozoa trigger an influx of polymorphonuclear neutrophils (PMNs) into the uterine lumen via activation of complement. Furthermore, semen plasma appears to have a modulatory effect on the post-mating inflammation through its suppressive effect on PMN chemotaxis and migration. Spermatozoa that safely have reached the oviduct can be stored in a functional state for several days, but prolonged sperm storage in the female tract is not required for capacitation and fertilization in the horse. The caudal isthmus has been proposed as a sperm reservoir in the mare. The pattern of sperm transport and survival of spermatozoa in the mare's reproductive tract are different between fertile and subfertile stallions, between fertile and some infertile mares, and between fresh and frozen/thawed semen. Possible explanations for these differences include a selective phagocytosis of damaged or dead spermatozoa, impaired myometrial activity in subfertile mares, bio-physiological changes in spermatozoa during cryopreservation, and the removal of semen plasma during cryopreservation of equine semen.     

Effects of unilateral ovariectomization on the numbers of sperm in the oviducts, uterus and cervix of rabbits

The experiment was designed to determine the effect of removing one of the rabbits' ovaries on the numbers of sperm in the oviducts, uterine horns and cervices. The possible relationship between the anatomical asymmetry of the two sides of the reproductive tract and the distribution of sperm within different segments of the tract was also studied. Fifteen female rabbits were used; five were kept intact as the control group, five were right ovariectomized and five were left ovariectomized. All rabbits were injected with 50 IU HCG to induce ovulation and then inseminated with 60x10(6) sperm in 0.25 ml semen. Does were inseminated one month after unilateral ovariectomy. Animals were sacrificed 10 hrs later and sperm was recovered from the right and left oviducts, uterine horns and cervices. Unilateral ovariectomy significantly reduced the total numbers of sperm recovered as compared with intact does. The total numbers of sperm recovered from each of the two sides of the tract were not affected by the site of the removed ovary. Sperm numbers were high in the cervices of all groups and then decreased gradually in the upper segments of the tract. Sperm numbers that reached the oviduct of the intact rabbits were greater than those of both unilateral ovariectomized groups of rabbits. Differences between the length of the left and right cervices and uterine horns were not significant, but the right oviduct was significantly longer than the left oviduct.     

Effect of the inseminate and the site of insemination on the uterus and pregnancy rates of mares

In this review, effects of the composition of the inseminate on uterine response and pregnancy rates in mares are discussed. The inseminate can differ for volume, sperm concentration, total sperm numbers, presence, absence, or proportion of seminal plasma, and extender composition. Semen can be used as fresh, cooled, or frozen. The site of semen deposition also plays a role; semen is deposited either into the uterine body (standard artificial insemination (AI)) or into the tip of the uterine horn ipsilateral to the preovulatory follicle (deep AI) using the hysterocopical or transrectally guided techniques. In addition to pregnancy rates, some uterine responses to the inseminate are considered including myometrial contractions, transport and elimination of sperm, and uterine inflammation, which is reflected as numbers of polymorphonuclear leukocytes, enzyme levels, and presence of intrauterine fluid. Reproductively normal and abnormal mares are compared.     

Uterine epithelial-sperm interaction, endometrial cycle and sperm storage in the terminal zone of the oviducal gland in the placental smoothhound, Mustelus canis.

The fate of spermatozoa deposited within the female reproductive tract has been described in the smoothhound, Mustelus canis. Evidence of uterine epithelial-sperm interaction is presented, as well as documentation of sperm storage specifically in the terminal zone of the oviducal gland. Sperm fate is correlated with morphology of the endometrial cycle and specificity of storage in the oviducal gland. The endometrium of M. canis undergoes dramatic tissue remodeling associated with gestation. In females harboring fertilized ova or preimplantation yolk-reliant embryos, the uterine epithelium is simple cuboidal with mucous droplets for lubrication. The presence of the embryo elicits a response from the uterus, which becomes modified for nutrient and respiratory exchange into vascular uterine attachment sites that abut the distal aspect of the yolk sac. Areas of the uterus adjacent to the uterine attachment sites are termed paraplacental sites. Uterine attachment sites are simple squamous while the paraplacental epithelium is simple columnar. Paraplacental cells have basal metachromatic vesicles and a dense array of apical cytoplasmic filaments. Immediately postpartum the uterine attachment sites, now termed uterine or placental scars, begin to remodel to a mucous epithelium for the next gestational cycle. Paraplacental cells slough off the apical filamentous portion, and sperm become embedded in the epithelium. Bundled sperm occur throughout gestation in the terminal zone of the oviducal gland. Sperm are not embedded in the terminal zone epithelium as in the uterus. Following sperm release from the uterus, the paraplacental epithelium reverts to a mucous epithelium for the next reproductive cycle. Fertilization is presumed to occur in the anterior oviduct above the oviducal gland. The physiological mechanisms that mediate sperm-uterus attachment, release, and storage in the terminal zone of the oviducal gland are currently under investigation.     

The in vitro effect of boar semen on the contractility of rat uteri

Contradictory reports in the literature provoked the investigation of a possible oxytocic effect of boar semen on in vitro rat uterus preparations. When fresh boar seminal plasma (SP), dialyzed seminal plasma (DSP) or a filtrate of acetone-extracted seminal plasma (AE) were added to uterine preparations, both the frequency and force of spontaneous contractile activity tended to be depressed. When the uterine preparations were primed with oxytocin (1.6 USP units/100 ml bathing solution), treatment with SP and AE resulted in an increased frequency of contraction but no increase in force. DSP increased neither the frequency nor force of contractions. A solution of salts and organic compounds that approximated the small molecular or dialyzable components of boar semen ("synthetic boar seminal plasma" or BS) affected contractility in a manner similar to SP and AE. When the rat uterus was bathed in a low calcium physiological salt solution, none of the seminal treatments (SP, DSP, AE, or BS) were capable of initiating a contraction. Further, the force of carbachol-induced contractions in these uterine preparations was markedly depressed by these seminal treatments. In contrast, treatment with oxytocin nearly doubled the contractile force. The depressant effect of SP, DSP and AE on both spontaneous and carbachol-induced contractions appeared to be irreversible. Mineral analysis of SP, DSP, AE, BS and the low calcium salt solution showed the SP, AE and BS contained amounts of Ca(2+) and Mg(2+) which could have altered the uterine contractility. In addition, a non-dial-yzable factor in SP appeared to have a similar effect.     

In vitro studies on the functional maturation and locomotion of sperm in a free-living nematode, Panagrellus redivivus

In the seminal vesicle of male Panagrellus redivivus the sperm are normally rounded, non-motile and have cytoplasmic organelles randomly scattered throughout the whole cell body. Sperm become amoeboid in the uterus of the female with a clear anterior region capable of producing pseudopodia and an arch-shaped rigid posterior region containing numerous organelles. The sperm arrange themselves in the form of a chain in the uterus attaching themselves anterio-posteriorly, however sperm entering the post-vulvar uterine sac do not form a chain and remain scattered. Approximately eight hours after insemination the sperm in the uterus stop producing pseudopodia. Pseudopodial formation recommences in the seven to eight anteriormost sperm in the chain as they reach seminal receptacle.     

Histology and functional morphology of the female reproductive tract of the tortoise Gopherus polyphemus

The oviducts of 25 tortoises (Gopherus polyphemus) were examined by using histology and scanning electron microscopy to determine oviductal functional morphology. Oviductal formation of albumen and eggshell was of particular interest. The oviduct is composed of 5 morphologically distinct regions; infundibulum, uterine tube, isthmus, uterus, and vagina. The epithelium consists of ciliated cells and microvillous secretory cells throughout the oviduct, whereas bleb secretory cells are unique to the infundibulum. The epithelium and endometrial glands of the uterine tube histologically resemble those of the avian magnum which produce egg albumen and may be functionally homologous. The isthmus is a short, nonglandular region of the oviduct and appears to contribute little to either albumen or eggshell formation. The uterus retains the eggs until oviposition and may form both the fibrous and calcareous eggshell. The endometrial glands are histologically similar to the endometrial glands of the isthmus of birds, which are known to secrete the fibers of the eggshell. These glands hypertrophy during vitellogenesis but become depleted during gravidity. The uterine epithelium may supply "plumping water" to the egg albumen as well as transport calcium ions for eggshell formation. The vagina is extremely muscular and serves as a sphincter to retain the eggs until oviposition. Sperm are found within the oviductal lumen and endometrial glands from the posterior tube to the anterior uterus throughout the reproductive cycle. This indicates sperm storage within the female tract, although the viability and reproductive significance of these sperm are unknown.     

Calcium alters capacitation and progressive motility of uterine spermatozoa from +/+ and congenic tw32/+ mice.

The importance of calcium-dependent sperm processes for fertilization in vitro is well known, but their interaction with sperm transport in vivo is not yet clear. To determine whether exposure to calcium alters sperm physiology after incubation in the uterus, spermatozoa from +/+ mice were incubated in medium with 1.7 mM calcium prior to artificial insemination (AI). Spermatozoa from congenic tw32/+ mice were also tested because their flagella are hypersensitive to calcium. As a control, spermatozoa were incubated in calcium-deficient medium before AI. When recovered from the uterus 60 min post-AI, neither prior exposure to calcium nor genotype affected numbers of spermatozoa, or percentage of motile or acrosome-reacted spermatozoa. However, significantly more calcium-treated spermatozoa were capacitated and significantly fewer were progressively motile than spermatozoa preincubated without calcium. In addition, significantly fewer spermatozoa from tw32/+ mice than from +/+ mice were progressively motile. These results suggest that uterine sperm physiology is changed by prior exposure of sperm to calcium. Since the level of progressive motility of spermatozoa recovered from the uterus was correlated with their ability to reach the oviduct (as determined in a previous study), these data support the hypothesis that progressive motility of uterine spermatozoa is important for passage to the oviduct and fertility.     

Evidence for specific binding of uncapacitated boar spermatozoa to porcine zonae pellucidae in vitro

Washed ejaculated boar sperm and sperm from the cauda epididymis bind to the zona pellucida of fixed porcine eggs in large numbers. Sperm incubated in the presence of dextran sulfate (8 K daltons or 500 K daltons) or fucoidan and then washed no longer bind to eggs. Other acid carbohydrates (heparin, chondroitin sulfates, inositol hexasulfate, carboxymethylcellulose) fail to block sperm-egg binding even when added directly to sperm-egg suspensions. Seminal plasma and the seminal vesicle secretion contain basic proteins which bind tightly to sperm and bind reversibly to eggs preventing sperm from binding to eggs. When dextran sulfate or fucoidan are mixed with the vesicular secretion, from which seminal plasma basic proteins originate (Hunt et al., '83), the secretion loses the capacity to prevent sperm from binding to eggs; this suggests that seminal vesicle proteins can bind to the same site on zonae as do sperm and thus seminal plasma may modify sperm-egg interactions. Corpus and cauda epididymal sperm also bind in large numbers to the zona pellucida of isolated eggs but high concentrations of caput sperm, which exhibit high motility in the presence of caffeine, bind only in few numbers. Thus a component that enhances sperm-zona binding is apparently formed on the plasma membranes of uncapacitated sperm during passage through the epididymis. This finding, and an earlier observation that antibodies raised against uncapacitated sperm plasma membranes block sperm-egg binding in vivo (Peterson et al., '83) suggest that this component may be involved in sperm zona interaction in vivo.     

Semen-coagulating protein, SVS2, in mouse seminal plasma controls sperm fertility

Mammalian seminal plasma is known to contain a decapacitation factor(s) that prevents capacitation and thus, the fertility of sperm. This phenomenon has been observed in experiments conducted in vitro that assessed the inhibition of epididymal sperm fertility by seminal plasma or by the purified decapacitation factor. However, the phenomenon of decapacitation has not yet been characterized in vivo. In the present study, we demonstrate that seminal vesicle protein secretion 2 (SVS2), which is a 40-kDa basic protein and a major component of the copulatory plug, enters the uterus and interacts with ejaculated sperm heads after copulation. The SVS2-binding region of sperm changed from the postacrosomal region to the equatorial segment, while the sperm migrated through the uterus and finally disappeared in the oviduct. Furthermore, SVS2 reduced the fertility of epididymal sperm. The sperm treated with SVS2 decreased the percentage of fertilized oocytes from 60% to 10%. The capacitation state was assessed by protein tyrosine phosphorylation and the comprehensiveness of the acrosome reaction. SVS2 functioned to maintain sperm in the uncapacitated state and to reverse capacitated sperm to the uncapacitated state. We found that the fertility of ejaculated sperm is associated with SVS2 distribution in the female reproductive tract. These results indicate that SVS2 functions as a decapacitation factor for mouse sperm.     

Myometrial activity around estrus in sows: spontaneous activity and effects of estrogens,cloprostenol, seminal plasma and clenbuterol

A new, nonsurgical, open-end catheter technique was used to study spontaneous uterine activity around estrus in sows, and the effects of estrogens, seminal plasma, cloprostenol, and clenbuterol on uterine activity. In the first experiment, uterine activity was studied in 14 multiparous, cyclic sows, during one or more estrous cycles, from day -4 to day 4 of the cycle (day 0: first day of standing estrus). From a few days before estrus until estrus, the percentage of sows showing any uterine contractions increased from 55 to 100%, and frequency and mean amplitude of uterine contractions for these sows increased from 15 to 22/h, and from 20 to 40 mmHg on average. After estrus, uterine activity decreased. There were large differences between sows in uterine activity, which were consistent over the days of the cycle. In the second experiment, 11.5 microg of estrogens in 100 ml saline (n = 17), 100 ml seminal plasma (n = 5), 1 mg cloprostenol in 100 ml saline (n = 10), 0.30 mg clenbuterol in 100 ml saline (n = 11), or 100 ml saline (n = 5) was infused IU, after recording spontaneous activity. Infusion with saline or seminal plasma did not affect uterine activity. Estrogens increased frequency of contractions. Cloprostenol increased both frequency and amplitude of contractions. Clenbuterol reduced both frequency and amplitude of contractions. In conclusion, this study shows that spontaneous uterine activity in sows is increased around estrus, and it supports the role of estrogens in boar seminal plasma in affecting uterine activity around mating. Further, this study has yielded possible tools to study the relation between uterine activity and sperm transport.     

Sperm competition and reproductive success in the decapod Inachus phalangium (Majidae): a male ghost spider crab that seals off rivals' sperm

Parker's (1970a) hypothesis that the overlap of multiple mating sperm in the female's storage organs promotes sperm competition is tested here for the first time in Crustacea: specifically, the mechanisms and consequences of sperm competition are detailed for the spider crab Inachus phalangium . Females of this species store ejaculates from successive copulations with different males discretely and consecutively in sac-like twin seminal receptacles. During copulation males transfer a large quantity of a sperm-free seminal plasma, followed by the sperm which is stored in small spermatophores and forms a densely-packed sperm packet. It was shown, using ³H-thymidine-labelled ejaculate, that the last male to mate displaces the ejaculate of his predecessors dorsally into the apex of the receptacle. Sperm of previous matings are sealed in with the hardening seminal plasma (sperm gel) and are thus prevented from being used to fertilize eggs, while the last male to mate places his sperm closest to the oviduct and vaginal openings. In experiments using the 'sterile-male' method, sperm from the last male to mate gained all fertilizations in subsequent broods. The seminal plasma forms the sperm gel in ghost spider crabs which is used for displacement of previously stored sperm, whereas various other brachyuran taxa use seminal plasma to produce the sperm plug, which prevents a male's sperm from being displaced.     

Ultrastructure of sperm cells in the female gonoduct of Xiphinema

The ultrastructure of the sperm cells in the female gonoduct of the nematodes Xiphinema theresiae and X. pinoides is described. The nucleus of the sperm cells is composed of several electron-dense clumps of chromatin that is not surrounded by a nuclear envelope. A layer of mitochondria, in which the mitochondrial cristae are only rarely visible, lies around the nuclear material. In the surrounding cytoplasm packets of electron-dense fibres are abundant. The sperm in the uterus have the following surface differentiations: highly intertwined protrusions between adjacent sperm cells, protrusions coinciding with the plication of the inner uterine wall and a slightly undulated surface towards the uterine lumen. It is argued that in the uterus, the sperm cells actively move in proximal direction by a mechanism resembling pseudopodial movement, in which the packets of fibres are involved. In the oviduct, the sperm cells loose their surface protrusions and the packets of fibres gradually become less abundant. Since the oviduct has no pre-formed lumen, the sperm cells appear to wedge their way along by forcing oviduct cells apart.     

Interaction between equine semen and the endometrium: the inflammatory response to semen.

Insemination of mares with bacteria-free equine spermatozoa results in an influx of polymorphonuclear neutrophils (PMNs) into the uterine lumen. In vitro studies have demonstrated that equine spermatozoa activate complement, resulting in cleavage of factors C5a and C3b. Since uterine secretion is rich in complement, it is likely that an interaction between spermatozoa and uterine secretion results in C5a-mediated chemotaxis and migration of PMNs into the uterine lumen. Once in the uterine lumen, the PMNs phagocytize bacteria and spermatozoa, which is an important part of sperm elimination from the reproductive tract. It is not clear how the spermatozoa are opsonized, or if phagocytosis of equine spermatozoa is a selective or non-selective process. Breeding-induced endometritis appears to be both up and down regulated by seminal components. A modulatory role on the inflammation has been suggested for equine seminal plasma. Seminal plasma suppressed complement activation, PMN-chemotaxis and phagocytosis in vitro. Preliminary in vivo experiments also support a suppressive role of seminal plasma in breeding-induced endometritis. The duration but not the magnitude of the PMN-influx into the uterine lumen was shortened when seminal plasma was included in an insemination dose. The presence of PMNs in the uterus affects the motion characteristics of spermatozoa in vitro. Both progressive motility and mean path velocity were impaired when spermatozoa were incubated in uterine secretion from mares with ongoing breeding-induced endometritis. The binding of spermatozoa to PMNs was prominent in all samples collected from mares with an ongoing endometritis. The motility remained impaired, but the binding of the spermatozoa to PMNs was reduced when the spermatozoa were incubated in uterine secretion in the presence of seminal plasma. Preliminary characterization of the immune-suppressive component in seminal plasma suggests that it is one or more molecule(s) with a molecular weight between 50 and 100 kDa, partially inactivated by charcoal stripping and partially heat-inactivated at 95 degrees C for 45 min.     

The cause of infertility of male c-ros tyrosine kinase receptor knockout mice

Male homozygous transgenic c-ros knockout mice are sterile by natural mating, lack a part of their epididymis, and the epididymal sperm exhibit tail angulation in vivo and in vitro. To ascertain if this abnormal tail form caused the infertility, the number and nature of sperm in the tract of females mated to knockout and wild-type mice were determined. Percentage motility and numbers of sperm in the uterus 1 h after mating were similar between genotypes. The majority of the uterine sperm from the wild-type males had straight flagella, whereas 46-86% of knockout sperm were bent at the cytoplasmic droplet even when motile. Motile knockout sperm showed a 54 and 37% reduction in the straightline and curvilinear velocities compared with straight wild-type sperm. Sequential flushings of the oviduct 4 h after mating with the wild-type males contained sperm: 591 +/- 119 free, 371 +/- 70 loosely, and 122 +/- 47 tightly bound to the epithelium, but no knockout sperm were recovered from the oviduct or observed within the uterotubal junction in tissue sections. The infertility of c-ros knockout male mice can be explained by the sperm's inability to enter the oviduct, as a result of their bent tails forming the entangled sperm mass and their compromised flagellar vigor within the uterus.     

Effects of seminal vesicle removal on fertility and uterine sperm motility in the house mouse

The relative significance of the accessory glands of the male reproductive tract in fertility is unclear. To clarify the role of the seminal vesicles, fertility and uterine sperm motility were determined before and after removal of seminal vesicles in the house mouse. After removal of seminal vesicles, the pregnancy rate (number of females pregnant/number of females X 100) was reduced and the time to birth was increased, while the average litter size was not changed. Fertilization, determined by examining the oocytes 30 h after mating, was highly variable after matings with males whose seminal vesicles were removed; in some cases none of the oocytes were fertilized. The motility of sperm recovered from the uterus 1 h after matings with males before and after seminal vesicle removal and sham operations was analyzed using a videomicrographic system. The motility of uterine sperm was less progressive with more lateral displacement of the head about the trajectory and a less linear trajectory after removal of the seminal vesicles. Sham-operated animals showed no consistent changes in motility of uterine sperm. The changes in sperm motility could contribute to the reduction in fertilization since sperm motility is necessary for transport in the female reproductive tract and interaction with the oocytes.     

Ejaculate esterase 6 and initial sperm use by female Drosophila melanogaster

The period of initial sperm storage and use by Drosophila melanogaster females is examined for effects of the seminal fluid enzyme esterase 6. Females mated to males differing in their level of esterase 6 activity were dissected from 5 min to 50 hr after the start of copulation and numbers of sperm contained in the uterus, ventral receptacle and paired spermathecae were counted. Of the 4000–6000 sperm transferred at copulation, about 700 are stored in the receptacle by 4 hr post mating and 400 in the spermathecae by 7 hr. However, sperm are released rapidly from storage organs following these peaks and may be found again in the uterus in numbers up to 100 or more. The rate of sperm release is closely related to the level of esterase 6 activity, suggesting that this seminal fluid enzyme is involved in sperm motility.     

Sperm storage within the oviduct of turtles

Tubules containing sperm were identified by light microscopy in the oviducts from 11 species of turtles representing six different families. Sperm storage tubules were found in a small region of the posterior portion of the egg albumin-secreting section of the oviduct located between the infundibulum and the uterus. This location of storage tubules, midway between the ovary and vagina, is unique among vertebrates. Ducts, restricted to the posterior albumin region, connect the tubules to the oviduct lumen, allow entrance of sperm to the tubules. Sperm were identified in tubules of female turtles isolated from males for as long as 423 days.     

Influence of seminal plasma on the fecundity of chicken spermatozoa

This study was undertaken to investigate the influence of seminal plasma on the fecundity of chicken sperm. Sperm diluted with either incubated seminal plasma (5 or 37 degrees C for 24 h) or seminal plasma from incubated whole semen (5 or 37 degrees C for 24 h) had lower fertility levels and motility scores than sperm diluted in either fresh seminal plasma or a synthetic diluent. The number of sperm with damaged membranes increased with seminal plasma derived from 37 degrees C incubation. The depressive effect of incubated seminal plasma on semen fertility was eliminated by microfiltering .(0.22 mum) the seminal plasma either before or after incubation. Filtration of seminal plasma was only effective in eliminating the depressive effect on sperm motility when filtering was done after incubation. Filtration of seminal plasma reduced the percentage of damaged sperm in all treatments. It can be concluded that there are factors in seminal plasma that are deleterious to the fecundity of chicken spermatozoa and they may be derived from degenerating sperm and/or various fluids, cells and debris collected with the semen during manual semen collection.