T. Muiño-Blanco

Seminal plasma proteins revert the cold-shock damage on ram sperm membrane.

Abstract Ejaculated ram spermatozoa, freed from seminal plasma by a dextran/swim-up procedure and exposed to cold shock, were incubated with ram seminal plasma proteins and analyzed by fluorescence markers and scanning electron microscopy. Seminal plasma proteins bound to the sperm plasma membrane modified the functional characteristics of damaged spermatozoa, reproducing those of live cells. Scanning electron microscopy showed that the dramatic structural damage induced by cooling reverted after incubation with seminal plasma proteins. Assessment of membrane integrity by fluorescence markers also indicated a restoration of intact-membrane cells. This protein adsorption is a concentration-dependent process that induces cell surface restoration in relation to the amount of protein in the incubation medium. Fractionation of ram seminal plasma proteins by exclusion chromatography provided three fractions able to reverse the cold shock effect. Scanning electron microscopy also confirmed the high activity of one fraction, because approximately 50% of cold-shocked sperm plasma membrane surface was restored to its original appearance after incubation. Differences in composition between the three separated fractions mainly resulted from one major band of approximately 20 kDa, which must be responsible for recovering the sperm membrane permeability characteristic of a live cell.

Semen plasma proteins prevent cold-shock membrane damage to ram spermatozoa.

Although the effect of semen plasma on the function of spermatozoa has been widely studied, results are contradictory. We showed that semen plasma proteins are adsorbed onto the cold-shocked ram sperm surface, and that this adsorption is able to reverse the membrane alterations induced by cold-shock. In the present study we evaluate whether the addition of semen plasma proteins before the cold-shock would prevent membrane damage and maintain ram sperm viability. Ram spermatozoa freed from semen plasma by a dextran/swim-up procedure were strongly affected by the cold-shock treatment, lowering cell viability (membrane integrity by fluorescence markers) from 72.2+/-3.4% to 24.6+/-2.1%. Adding semen plasma proteins (> 3 kDa) to the medium before the cold treatment had an immediate beneficial effect on sperm survival in all samples. This effect was concentration-dependent, since the percentage of membrane-intact spermatozoa increased significantly with increased protein concentration in the incubation medium. The highest concentration of proteins (2.1 mg) continued to protect the membranes after 1 h of incubation at 20 degrees C while lower concentrations (0.7 and 1.4 mg) showed a slight decline. Inclusion of linoleic-oleic acids had a beneficial effect on preserving sperm viability when 25, 37 or 75 microM linoleic-oleic acids were added. There was a positive interaction between fatty acids and semen plasma proteins. Thus, the addition of 25 microM oleic-linoleic acid in the presence of 2.1 mg semen plasma proteins accounted for an increase in viability up to 50.7% significance (P < 0.001) relative to the control sample (25%). Likewise, semen plasma proteins significantly promoted the ability of Vitamin E (alpha-tocopherol phosphate) to improve sperm survival. A 26% viability value obtained after cold-shock in the control sample significantly increased (P < 0.001) up to 57% in the sample with 1.6 mM Vitamin E phosphate and 2.1 mg semen plasma proteins (0 h). This study demonstrates that impaired function of cold-shocked ram spermatozoa freed from semen plasma could be prevented by addition of semen plasma proteins, resulting in higher maintained viability values. Inclusion of either linoleic-oleic acids or vitamin E together with semen plasma proteins would increase the improvement in ram spermatozoa survival.

Seminal Plasma Proteins and Sperm Resistance to Stress

The role of seminal plasma (SP) in mammalian sperm function remains largely a matter of speculation as both inhibitory and stimulating effects have been found. Specific components of SP, particularly proteins, are adsorbed onto the surface of ejaculated sperm as they pass through the male and female reproductive tracts. These sperm coating components seem to have the important function of maintaining the stability of the membrane up to the process of capacitation (decapacitation factors). Therefore, they must be removed, modified or masked before the spermatozoa undergo the acrosome reaction, an essential process for successful fertilization. It is well known that low temperatures alter the function of spermatozoa. Cold shock results in the destabilization of sperm membranes and impairment of sperm function, and it is also well known that ram spermatozoa are more sensitive to cold-shock stress than those of other species. The addition of SP proteins to spermatozoa before and/or after cooling is able to minimize cryoinjury effects. The major proteins in ram SP which are able to protect and repair the cold-shock damage to sperm contain fibronectin-II domains. The significance of this domain and the role of these proteins in sperm capacitation and gamete interaction are discussed.

Melatonin prevents capacitation and apoptotic-like changes of ram spermatozoa and increases fertility rate.

Abstract:  We recently demonstrated the presence of melatonin in ram seminal plasma and differences in its concentration in this fluid between the breeding and nonbreeding season. In this study, we investigate the hypothesis that in vitro treatment with melatonin affects ram sperm quality, and that this is reflected in the in vitro fertilization (IVF) results. Semen from nine rams was collected during the nonreproductive season and treated with 1 μm, 10 nm and 100 pm melatonin. Samples were incubated at 39°C and 5% CO2, and motility, viability, capacitation status and phosphatidylserine (PS) translocation were assessed before and after melatonin addition, either 1 or 3 hr of incubation. Fertility rate of the melatonin‐treated samples was determined by means of IVF. Although melatonin failed to affect both sperm kinematic parameters and viability, the exposure of ram spermatozoa to melatonin has a direct effect, decreasing capacitation and PS translocation at 1 μm, and increasing short‐term capacitation at 100 pm, which caused an increased oocyte fertilization rate following IVF. Furthermore, cleavage rate of oocytes fertilized with 100 pm melatonin‐treated spermatozoa was higher than that with 1 μm melatonin and control samples (P < 0.1). These results prove that melatonin has a direct effect on ram spermatozoa in the nonreproductive season, which can be explained, at least in part, by the melatonin capacity as a reactive oxygen species scavenger and antioxidant. These findings might help to select the optimal experimental conditions for IVF and to improve sperm preservation protocols.

Effects of melatonin implants during non-breeding season on sperm motility and reproductive parameters in Rasa Aragonesa rams.

The effect of melatonin implants administered during non-breeding season in Rasa Aragonesa rams on sperm motility parameters and other reproductive traits was assessed. In a first experiment, two Rasa Aragonesa rams were implanted (with melatonin group M), remaining other two males as control group (C). Semen of each group was collected from 1 May to 23 June, twice or three times a week, and motility parameters were assessed using a computer-assisted sperm analysis system. Melatonin increased the percentage of progressive motile spermatozoa, particularly during 46-75 days after melatonin implantation (p < 0.01). In experiment 2, M and C in vitro fertilization ability had been determined by zona-pellucida binding assays, using spermatozoa from experiment 1, obtained 60-70 days after melatonin was implanted. A significantly higher number of spermatozoa attached per oocyte was observed in frozen-thawed immature ovine oocytes incubated with sperm from M animals than in those incubated with sperm from the C group (p < 0.01). Finally, a field assay (experiment 3) was performed. In this case, five Rasa Aragonesa rams were implanted with melatonin and three remained as control group. Sperm doses from those animals were used for artificial insemination of 2608 Rasa Aragonesa ewes from 39 different farms at non-breeding season. Fertility, litter size and fecundity were studied. Semen from melatonin implanted rams seemed to increase both fertility and fecundity in ewes inseminated with spermatozoa obtained 46-60 days after implantation (p < 0.1). Thus, melatonin treatment in rams during non-breeding season modifies sperm motility parameters and seems to improve the fertilization parameters obtained.

A DEXTRAN SWIM-UP PROCEDURE FOR SEPARATION OF HIGHLY MOTILE AND VIABLE RAM SPERMATOZOA FROM SEMINAL PLASMA

Although washing of sperm cells by centrifugation is a procedure in widespread use, there have been indications that centrifugation may be harmful to the cells. The objective of this study was to develop a modified swim-up technique, without centrifugation, to get a selection of highly motile and viable ram spermatozoa free of semen plasma. Semen collected from 3 rams over a period of a year was pooled into a low, medium and high motility group, and aliquots from each pool were placed beneath a dextran solution and overlaid with medium. The top layer of the medium was collected (and replenished) 4 times at 15min intervals. Evaluated were the pre- and post-swim-up progressive individual motility, membrane integrity and resistance to a hypoosmotic swelling test (HOS). Semen samples with initial motility 70% initial motility improved less but showed final absolute values similar to those in the low motility group and to each other. The first swim-up layer had the highest contamination with semen plasma (17% beta-N-acetylglucosaminidase (NAG), 13% citric acid content) and the lowest motility score. The second, third and fourth fractions were pooled and showed low plasma contamination (2% NAG and 5% citrate), 80% motility, 70% HOS, and 72% viability, up from the pre-swim-up values of 68, 66 and 590/o, respectively. Our data suggest that the dextran swim-up procedure is suitable for evaluating ram spermatozoa for in vitro and in vivo procedures in assisted reproduction.

Effect of the Cryopreservation Process on the Activity and Immunolocalization of Antioxidant Enzymes in Ram Spermatozoa

In this study, certain enzymes in ram semen involved in reactive oxygen species elimination and their changes during the cryopreservation process were characterized in order to investigate the hypothesis that the antioxidant defense system is involved in the maintenance of frozen sperm quality. Glutathione reductase (GR), glutathione peroxidase (GPx), and superoxide dismutase (SOD) activities were quantified in ram sperm samples subjected to cooling and freezing/thawing processes. In addition, their distribution on the sperm surface and the changes due to cryoinjury were determined by indirect immunofluorescence. SOD showed the highest antioxidant activity, which was also twice as high in fresh and cooled samples as in frozen/thawed ones. Enzymatic activity of GPx and GR showed no significant change throughout the freezing process. Seminal plasma proteins (SPPs) added alone or with other compounds showed a protective effect and accounted for an increase in the sperm quality parameters and enzyme activity levels not only in the fresh sample but also after cooling and freezing/thawing. These antioxidant enzymes were distributed over several sperm regions, and we were able to define several subpopulations according to the obtained sperm immunofluorescence patterns. The sperm membrane distribution of SOD, GPx, and GR changed considerably during cryopreservation, and the type and percentage of the immunofluorescence patterns found in fresh samples were severely modified. This remodeling was strongly affected by the use of different cryoprotectants. The mixture of SPPs, oleic/linoleic acids, and vitamin E was able to partly maintain and recover the fresh enzyme distribution, particularly of SOD.

LOSS OF PLASMA MEMBRANE PROTEINS OF BULL SPERMATOZOA THROUGH THE FREEZING -THAWING PROCESS

The widespread application of A. I. and realization of its full potential depends largely on the use of frozen semen. However, fertility resulting from A. I. is poorer than that from fresh semen in most species. The objective of this study was to compare the protein composition of fresh and frozen-thawed bull sperm plasma membrane surface. The effect of Tween 20 on protein removal from fresh and frozen sperm plasma membrane surface was studied and compared. The effect of incubation with different detergent concentrations on sperm motility and viability was examined. Approximately 2 x 10(8) frozen-thawed bull spermatozoa washed through a discontinuous Percoll gradient were incubated for 15 min at 20 degrees C with 0.01, 0.03 and 0.05% Tween 20. Sperm motility was completely eliminated at all 3 assayed detergent concentrations, while the initial sperm viability of 52% was decreased to 26, 10 and 5%, respectively, at the 3 concentrations. The removal of sperm plasma membrane proteins also increased from 0.72 mg to 2 mg with 0.05% Tween 20. Similar results were found with fresh semen samples. Although the amount of extracted proteins was significantly lower than that obtained with frozen spermatozoa, fresh sperm motility was likewise eliminated by the detergent treatment, and sperm viability was decreased. A semen sample with an initial sperm viability of 59% had a value of only 8% after treatment with 0.05% Tween 20. Comparative SDS-PAGE analysis of the extracted fractions from fresh and frozen-thawed semen treated with Tween 20 showed that the higher amount of extracted proteins in the frozen semen samples corresponded to the egg yolk lipoproteins in the cryoprotectant medium. However, it is worth noting that 4 more bands were found in the sample obtained from fresh semen than from frozen semen. These results indicate that some cell membrane proteins are lost through the freezing-thawing process.

Seasonal variations of melatonin in ram seminal plasma are correlated to those of testosterone and antioxidant enzymes

BackgroundSome breeds of sheep are highly seasonal in terms of reproductive capability, and these changes are regulated by photoperiod and melatonin secretion. These changes affect the reproductive performance of rams, impairing semen quality and modifying hormonal profiles. Also, the antioxidant defence systems seem to be modulated by melatonin secretion, and shows seasonal variations. The aim of this study was to investigate the presence of melatonin and testosterone in ram seminal plasma and their variations between the breeding and non-breeding seasons. In addition, we analyzed the possible correlations between these hormones and the antioxidant enzyme defence system activity.MethodsSeminal plasma from nine Rasa Aragonesa rams were collected for one year, and their levels of melatonin, testosterone, superoxide dismutase (SOD), glutathione reductase (GRD), glutathione peroxidase (GPX) and catalase (CAT) were measured.ResultsAll samples presented measurable quantities of hormones and antioxidant enzymes. Both hormones showed monthly variations, with a decrease after the winter solstice and a rise after the summer solstice that reached the maximum levels in October-November, and a marked seasonal variation (P < 0.01) with higher levels in the breeding season. The yearly pattern of GRD and catalase was close to that of melatonin, and GRD showed a significant seasonal variation (P < 0.01) with a higher activity during the breeding season. Linear regression analysis between the studied hormones and antioxidant enzymes showed a significant correlation between melatonin and testosterone, GRD, SOD and catalase.ConclusionsThese results show the presence of melatonin and testosterone in ram seminal plasma, and that both hormones have seasonal variations, and support the idea that seasonal variations of fertility in the ram involve interplay between melatonin and the antioxidant defence system.

Seasonal differences in ram seminal plasma revealed by partition in an aqueous two-phase system

Seminal plasma plays an important role in maturation of spermatozoa through hormonal, enzymatic and surface-modifying events. We have previously shown that adsorption of seminal plasma proteins (SPPs) to the sperm cell surface partially restores the functional characteristics of damaged spermatozoa, reproducing those of live cells. In the present report, we investigate the hypothesis that seasonal differences in seminal plasma could affect its ability to recover membrane integrity of cold-shocked sperm. The effect of seminal plasma proteins, obtained in breeding (bsSPPs) and non-breeding (nbsSPPs) season, on cold-shocked ram spermatozoa previously freed from seminal plasma, was analysed by centrifugal counter-current distribution (CCCD) in an aqueous two-phase system as well as membrane integrity determination by fluorescence markers. Cold-shock treatment greatly lowered cell viability in both breeding and non-breeding season spermatozoa. The cold-shocked sperm viability obtained was approximately 20%. The loss of heterogeneity and the decrease in viability revealed by CCCD analysis was reversed by the addition of increasing amounts of bsSPP, which induced restoration of the surface characteristics of viable-like spermatozoa, as well as an increase in the number of recovered viable sperm. However, this restoring effect was much lower when nbsSPPs were added, even in a sixfold higher concentration than used with bsSPPs. Incubation of cold-shocked cells with both kinds of proteins performed in both seasonal periods, showed that the recovering effect was related to the season when the plasma sample was obtained rather than to the semen season. The addition of bsSPPs to cold-shocked sperm accounted for a nearly 50% reversion for both studied breeding seasons. However, the reversion percentages obtained with nbsSPPs were significantly lower (P<0.05) than those found with bsSPPs in both studied seasonal periods. This different reversion capacity of bsSPPs and nbsSPPs was related to a different protein composition, as revealed by comparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis. The bands of 20, 21, 24, 36 and 67 kDa of the bsSP sample profile decreased in winter-spring SP, and were even less intensely stained in summer SP. Densitometric analysis of the stained gel patterns allows automatic comparison among the separated bands, and revealed an important decrease in the content of several bands. The 21.5 kDa band showed the highest decrease, lowering to 14% in June-August plasma with respect to the value obtained in September-December plasma.