Thiols prevent H2O2-mediated loss of sperm motility in cryopreserved bull semen

We previously showed that cryopreservation of bull spermatozoa in egg yolk Tris extender (EYTG) significantly reduced the intracellular level of thiols. Other studies showed the beneficial effects of adding antioxidants to cryopreserved bull spermatozoa. These studies led us to investigate the effects of various thiols, an important class of antioxidants, on sperm motility of cryopreserved bull semen in a commonly used extender, EYTG. Sperm motility was analyzed by computer-assisted semen analysis (CASA). After thawing, a diluted pool of bull semen was incubated at 38.5 degrees C in airtight tubes with the following thiols for 6 hours: glutathione (GSH/GSSG), cysteine, N-acetyl-L-cysteine (NAC) and 2-mercaptoethanol in the presence or absence of oxidative stress. The oxidative stress was caused by adding H2O2 (100 microM) to diluted semen. Incubation of diluted bull semen in EYTG at 38.5 degrees C over a period of 6 h decreased sperm motility by approximately 9 fold from the start (72 +/- 3, mean +/- SEM, n=4) to the end (9 +/- 4, n=4) of the incubation. We found that all thiols to a concentration above 0.5 mM maintained high sperm motility for 6 h in the absence of an external source of oxidative stress (52 +/- 4, for 4 thiols). However, one mM of each thiol was required to efficiently protect sperm motility in the presence of 100 microM of H2O2 for 6 h. We also found that the GSH concentration in diluted semen was too low (microM) to adequately supply exogenous addition of 72 U/mL of glutathione peroxidase (GPx), an enzyme that detoxifies H2O2 and hydroperoxides using GSH as a cofactor. In fact, a better protection of sperm motility could be achieved with only 5 U/mL of GPx and 0.1 mM of GSH added to diluted semen. Our results also demonstrated that added GSSG (0.5 mM) in diluted semen was not regenerated efficiently to GSH over 6 h. The latter result indicated in the extender that the glutathione redox-cycle was deficient. Therefore, deleterious effects sperm motility after cryopreservation in EYTG can be counteracted by adding various thiols at mM concentration.     

The advantages of low-density lipoproteins in the cryopreservation of bull semen

Egg low-density lipoprotein (LDL) was added at concentrations (w/v) of 7%, 8% or 9% to the extenders used to freeze bull semen and its effects on seminal parameters and anti-oxidant activities of frozen–thawed sperm were assessed. Analysis of data showed that sperm exposed to 8% LDL exhibited the greatest percentages of sperm motility, acrosome integrity and membrane integrity, compared to the control which differed from the treatment groups by replacing LDL with 20% egg yolk (P < 0.05). No difference was observed for membrane integrity between 8% and 9% LDL groups (P > 0.05). The extender supplemented with LDL did not exhibit improvement in SOD levels. However, 8% LDL group favored the highest anti-oxidant activities of CAT, GSH-Px and GSH in comparison to other groups (7%, 9% LDL and the control) (P < 0.05). No difference was observed for CAT activity between 9% LDL and the control group. In conclusion, sperm cryopreserved in the extender containing 8% LDL in place of egg yolk exhibited the greatest percentages of post-thaw sperm motility, acrosome integrity and membrane integrity, in comparison with the control, and favored the highest anti-oxidant activities of CAT, GSH-Px and GSH in comparison with other groups. The replacement of egg yolk by LDL in the composition of extenders was beneficial for bull sperm cryopreservation.     

Impact of Eurycoma longifolia extract on DNA integrity,lipid peroxidation,and functional parameters in chilled and cryopreserved bull sperm

This study aims to assess the effect of Eurycoma longifolia aqueous extract on chilled and cryopreserved quality of bull sperm. Semen samples were obtained from four Simmental–Brangus. Each sample was divided into two fractions: the first fraction was used for chilling the semen, and the second fraction was used for the freezing process. Both fractions were extended with Tris–egg yolk extender supplemented with 0.0, 0.25, 0.5, 1.0, 2.5, 5.0, and 7.5 mg/ml Eurycoma longifolia aqueous extract. The diluted chilled fraction was chilled at 5 °C for 6 days, whereas the frozen–thawed fraction was frozen in liquid nitrogen. Data revealed that 1 mg/ml E. longifolia aqueous extract yielded significantly (p < .05) higher sperm motility, morphology, viability, and sperm membrane integrity compared with the control group and other treated groups in chilled semen evaluation. For cryopreserved sperm, a significant difference (p < .05) in sperm motility, viability, sperm membrane integrity, DNA integrity, and lipid peroxidation was observed between 5 mg/ml E. longifolia aqueous extract and other treated and control groups. However, no significant difference in the percentage of sperm exhibiting normal sperm morphology was observed among the groups. In conclusion, the addition of 0.25 and 1 mg/ml E. langifolia extract to chilled semen and 5 mg/ml E. longifolia aqueous extract to cryopreserved sperm into Tris–egg yolk extender helps in maintaining superior quality of bull spermatozoa during chilling and freezing.     

A comparative study of the effects of freezing and frozen storage on intact and demembranated bull spermatozoa

The damage caused to bull sperm by freezing and thawing them without cryoprotectants was assessed in both intact and membrane-extracted cells. Preparations of membrane-extracted cells were produced by treating the sperm with 0.1% Triton X-100 and motility was restored with exogenously applied ATP and Mg²⁺. Motile demembranated sperm showed no detectable reduction in motility after freezing and thawing. In contrast, when intact cells where subjected to freezing and thawing they lost all motility. These damaged cells were also restored to motility when exogenous ATP and Mg²⁺ were added to the sperm mixture. Apparently freezing and thawing sperm cells causes damage to the plasma membrane which permits ATP and Mg²⁺ to freely enter or leave the cells, but does not damage the components of the sperm cell which generate motility.The effects of storage temperature on frozen demembranated sperm were also explored. Sperm held at ?20 °C showed marked structural changes and progressively decreased motility after prolonged storage. When sperm were frozen at ?20 °C the mitochondrial structures were completely lost after 48 to 72 hr and ATP caused the disintegration of the flagellum rather than initiating motility. Sperm which were frozen at ?76 °C retained motility after short periods of storage, but showed a significant decline in motility when thawed after 8 days. Demembranated sperm which were kept frozen at ?196 °C showed no significant loss of motility when thawed after 1 year of storage.     

Effect of relaxin on cryopreserved beef bull semen characteristics

This study aimed to improve the quality of cryopreserved beef bull (Piedmontese) semen by incorporation of relaxin in diluted semen before cryopreservation procedures. Semen samples were collected from 4 proven fertile bulls, using artificial vagina, once per week for 8 consecutive weeks and pooled together then diluted with Bullxcell® extender, and supplemented with different concentrations of relaxin (0 (control), 25, 50 and 100 ng/ml) before cooling, equilibration and freezing procedures. Frozen semen was thawed and assessed for motility by Computer-Assisted Sperm Analysis and vitality parameters such as acrosome, plasma membrane and DNA integrities, apoptosis, mitochondrial membrane potential, mucus penetration and SOD activity. The developmental potential of bovine embryos produced in vitro by using relaxin-treated was also investigated. In the present study, 50 and 100 ng/ml relaxin incorporation in extended bull semen before cryopreservation induced a reduction of sperm motility immediately after thawing (0h), whereas, during long incubation periods (1–2 h), relaxin showed a significant positive effect on sperm quality by improving the sperm motility and velocity parameters. Interestingly, sperm vitality was improved by 25 and 100 ng/ml relaxin and the blastocyst developmental rate was significantly increased in the 25 ng/ml relaxin group compared with controls (52/118, 44.0% vs. 32/116, 27.6%, respectively). These findings suggest a potential use of relaxin at the doses tested in the present study as an additive in the cryopreservation media of bull semen to improve sperm quality.     

The influence of reduced glutathione in fertilization medium on the fertility of in vitro–matured C57BL/6 mouse oocytes

It is well known that IVM oocytes show a decreased potential for fertility and development compared with in vivo–matured oocytes. In this study, we added reduced glutathione (GSH) to the fertilization medium during IVF to investigate its effect on the fertility and early embryo development of IVM oocytes. The fertilization rate for IVM oocytes and fresh sperm increased with the addition of GSH (0, 1.0, and 2.0 mM: 51%, 76%, and 70%). Moreover, the addition of GSH to the fertilization medium also improved the developmental potential compared with the control sample (0 mM). In addition, we performed IVF using IVM oocytes and frozen/thawed sperm that had been cryopreserved in a mouse bank. Results indicated a marked increase in the fertilization rate when 1.0 mM GSH was added to the fertilization medium compared with when no GSM was used (0.0 mM GSH: 2% (3/195); 1.0 mM GSH: 33% (156/468)). Furthermore, the fertilization rate improved dramatically via zona drilling using laser equipment (52%: 267/516), whereas normal offspring were obtainsed after transferring embryos created via IVF using IVM oocytes and frozen/thawed sperm. This is the first report in which offspring have been obtained via IVF using IVM oocytes and frozen/thawed sperm.     

An investigation of the effectiveness of certain antioxidants in preserving the motility of reactivated bull sperm models

Bull sperm that had been disrupted by freezing and thawing were reactivated with 1 mM Mg-adenosine 5'-triphosphate. The antioxidants superoxide dismutase, catalase, dithiothreitol, and reduced glutathione (GSH) were tested for their ability to prolong the motility of the reactivated sperm. GSH was employed both by itself and as part of a reducing system that maintained the tripeptide in the reduced form. Three of the test agents were found to increase the duration of motility in the sperm preparations; these were reduced glutathione, dithiothreitol, and superoxide dismutase. Glutathione was the most effective protective agent, yielding reactivated preparations with a half-life for the decay of motility of 2.5 h. While dithiothreitol (DTT) is widely employed as an antioxidant, we found that DTT is measurably less effective than glutathione (half-life of 1.5 h). In spite of glutathione's effectiveness in preserving motility, we have found, by direct assay, that mature bull sperm do not contain detectable amounts of this common biological antioxidant. Our results support the hypothesis that oxidative damage contributes to the loss of motility in reactivated sperm and suggest that oxidation could be a factor in motility loss in living sperm.     

The cryoprotective effect of low-density lipoproteins in extenders on bull spermatozoa following freezing–thawing

Egg low-density lipoprotein (LDL) was added at concentrations of 7–10% to the extenders used to freeze bull semen and its effects on the motility, mitochondria activity, acrosome integrity, membrane integrity and DNA integrity of frozen–thawed sperm were assessed. Analysis of data showed that the motility and characteristics of spermatozoa movement were higher with LDL in the extender, as compared to the extender containing 20% egg yolk. The results indicated that 8% LDL supplementation provided the highest sperm motility (55.8%) and movement characteristics (VSL, straight linear velocity: 33.8 μm/s; VCL, curvilinear velocity: 50.2 μm/s; LIN, linearity index: 56.5%; STR, mean coefficient: 76.7%; VAP, average path velocity: 35.9 μm/s; WOB, wobble coefficient: 63.9%). A concentration of 10% LDL resulted in a significant decline in the VSL, LIN, VAP and WOB values (P < 0.05). Supplementation of LDL at 8% LDL resulted in significantly higher spermatozoa mitochondrial activity, acrosome integrity, membrane integrity and DNA integrity (P < 0.05). According to all measured parameters, the extender containing 8% LDL showed beneficial cryoprotective effects on frozen–thawed bull spermatozoa. In conclusion, our results indicated that the extender containing 8% LDL extracted from egg yolk could be used successfully in the cryopreservation of bull semen with an efficacy that would be greater than present extenders containing 20% egg yolk.     

Respiration of bull spermatozoa in presence of exogenous glutathione (GSH)

In the investigations of the rate of oxygen uptake by sperm cells in frozen bull semen it was found that exogenous glutathione (GSH) in a 5 mM concentration failed to stimulate mitochondrial oxidative processes in the sperm cells. At the same time it was observed that the respiration of sperm cells changed in relation to the season of the year when ejaculates had been collected and preserved. The highest values were noted in winter and the lowest ones in summer. Moreover, in the observations on the motility of spermatozoa a difference was observed in the reaction of sperm cells to exogenous GSH, and this difference depended on the season. A significant (p less than or equal to 0.05) rise was disclosed in the number of sperm cells with maintained advancing motility in the presence of GSH in the medium as compared to controls without GSH, but this rise was found only in semen obtained and preserved in winter.     

Evaluation of sperm subpopulation structure in relation to in vitro sperm–oocyte interaction of frozen-thawed semen from Holstein bulls

The present study examined the relationship between the relative amount of high motile sperm and sperm–oocyte interactions obtained from Holstein bull ejaculates. Post-thaw sperm motility was analyzed using a computer-assisted sperm analyzer system and evaluated to determine the sperm motility subpopulations. Adhesion and penetration of zona pellucida (ZP) and pronucleus formation using post-thawed samples (15 ejaculates form 5 different bulls) with different percentages of sperm in the subpopulation with the fastest and most progressive subpopulation (subpopulation 4 [SP4]) were analyzed. The correlation between the proportion of sperm in SP4 and the number of spermatozoa bound to the zona pellucida (ZBA), the penetration rate, and the rate of pronucleus formation were calculated. A significant (P < 0.05) and positive correlation was found between the number of spermatozoa bound to the zona pellucida, the penetration rate, and the rate of pronucleus formation with the proportion of sperm in SP4 (r = 0.79, r = 0.66, and r = 0.63, respectively). Our results suggest that this specific high motile and progressive subpopulation is positively and significantly correlated with the ability of a thawed bull semen sample to interact properly with the oocyte and its extracellular vestments. These findings emphasize the relevance of analyzing semen subpopulation composition to predict bull sperm fertilizing ability and to select Holstein bulls for breeding purposes.     

Glutathione-supplemented tris-citric acid extender improves the post-thaw quality and in vivo fertility of buffalo (Bubalus bubalis) bull spermatozoa

In this study we evaluated the effects of semen extender supplementation with different concentrations of glutathione (GSH) on buffalo (Bubalus bubalis) bull sperm motility, plasma membrane integrity, viability and DNA integrity as well as in vivo fertility. Semen from three Nili-Ravi buffalo bulls was collected, and qualified semen ejaculates (n = 18) were split into five aliquots for dilution (37 °C; 50 × 10⁶ spermatozoa ml^?1) with experimental tris-citric acid extender containing 0, 0.5, 1.0, 1.5 or 2.0 mM GSH. Extended semen was cooled to 4 °C, equilibrated and filled in French straws. The straws were kept on liquid nitrogen vapors (5 cm above the LN₂ level) for 10 min and plunged in liquid nitrogen for storage. Sperm motility (%), plasma membrane integrity (%), viability (%) and DNA integrity (%) were assessed at 0, 2 and 4 h post-thawing (37 °C). Extender supplementation with GSH (0.5, 1.0, 1.5 and 2.0 mM) increased sperm motility, plasma membrane integrity and viability in a dose dependent manner. Sperm DNA integrity was higher (p < 0.05) in all experimental extenders containing GSH when compared to the control extender (0 mM GSH). The in vivo fertility rate of cryopreserved buffalo bull (n = 2) spermatozoa was higher (p < 0.05) in extender containing 2.0 mM GSH compared to that of control. In summary, tris-citric acid extender supplemented with glutathione improved the freezability of buffalo bull spermatozoa in a dose dependant manner. Moreover, the addition of 2.0 mM GSH to the extender enhanced the in vivo fertility of buffalo (Bubalus bubalis) bull spermatozoa.     

Effect of cholesterol or cholesteryl conjugates on the cryosurvival of bull sperm

Different cholesterol conjugates-loaded-cyclodextrin was added to bull sperm to improve sperm quality after freezing. Ejaculates from four bulls were diluted to 120 million cells/ml in Tris (T) diluent and then sub-divided into 10 treatments as follow: no additive (control); 1.5 mg CLC (positive control); 0.75 mg or 1.5 mg of cyclodextrin pre-loaded with cholesterol conjugated to heptanoate, palmitate, pelargonate or stearate, and incubated for 15 min at 22 °C. The samples were then diluted 1:1 with 20% egg yolk (EY) in T diluent and cooled to 5 °C over a 2 h. Upon reaching 5 °C, the samples were diluted 1:1 with T diluent containing 10% EY + 16% glycerol, and allowed to equilibrate for 15 min, and packaged into 0.5 ml straws and frozen in static liquid nitrogen vapor for 20 min before being plunged into liquid nitrogen for storage. Straws were thawed and the sperm motility, viability and number sperm binding to perivitelline membrane were determined. The ability of bull sperm to bind to the oocyte membranes was conducted using the chicken egg perivitelline membrane (CEPM) as described by Barbato et al. [G.F. Barbato, P.G. Cramer, R.H. Hammerstedt, A practical in vitro sperm-egg binding assay that detects subfertile males. Biol. Reprod. 58 (1998) 686-699] and modified by Amorim et al. [E. Amorim, J.K. Graham, B. Spizziri, M. Meyers, L. Amorim, C. Torres, The effect of adding cholesteryl-heptanoate, -palmitate, -pelargonate, or -stearate loaded cyclodextrin on bull sperm cryosurvival, in: Proceeding 40th Annual Meeting of the Society for the Study of Reproduction (SSR), July, San Antonio, TX, EUA, 2007], where these authors did not observe difference between bovine zona pellucide and CEPM. Higher percentages of motile and viable sperm were maintained after thawing from bull sperm treated with CLC and pelargonate compared to all other treatments (P < 0.05). Control samples and sperm treated with heptanoate, palmitate, or stearate loaded cyclodextrin exhibited similar motility percentages and viable sperm after freezing (P > 0.05). The percentage of motile sperm and number sperm binding to chicken egg perivitelline membrane was higher for CLC and pelargonate compared to control (P < 0.05). Therefore, adding either cholesterol or pelargonate to bull sperm membranes improved cell cryosurvival, whereas treatments with cyclodextrins pre-loaded with other cholesterol-like molecules did not.     

Assessment of Sperm Viability by Measurement of ATP,Membrane Integrity and Motility in Frozen/Thawed Bull Semen

Control of sperm quality after commercial freezing/thawing of bull semen is still restricted to the subjective assessment of sperm motility, despite its low correlation to fertility (Söderquist et al. 1991, Kjaestad et al. 1993). Although no single in vitro method has yet been designed to predict the fertilizing ability of a given semen sample, the quantitation of viable spermatozoa (with intact plasma and acrosome membranes, and metabolically active) seems to be most promising (Woelders et al. 1991). The present report describes the use of a bioluminiscence technique to determine ATP-levels and a novel supravital stain (using fluorescent dyes) to assess the amount of viable spermatozoa in frozen/thawed semen from 3 A.I. dairy bulls with significantly different motility after thawing.     

Alterations of sperm DNA integrity during cryopreservation procedure and in vitro incubation of bull semen

An association between sperm DNA integrity and fertility was recently shown for frozen–thawed Norwegian Red (NRF) bull semen diluted in skimmed milk egg yolk (SMEY). In general the fertility of NRF cattle is high, however, in comparison with NRF semen in SMEY, NRF semen diluted in Tris EY based extenders has shown reduced fertility. The aim of the present study was to do a split-sample comparison of sperm DNA integrity of NRF bull semen (n = 20) in SMEY and Triladyl^® (Tris EY based) during routine cryopreservation procedure and during in vitro incubation of frozen–thawed semen in modified synthetic oviduct fluid (mSOF). In contrast to the high fertility of NRF cattle, Holstein cattle are experiencing a marked decline in fertility. Therefore, the present study also aimed to compare sperm DNA integrity of NRF (n = 20) and Holstein (n = 20) semen diluted in Triladyl^® during in vitro incubation. The sperm DNA integrity was measured by susceptibility to in situ acid induced denaturation by the Sperm chromatin structure assay (SCSA). Compared to initial values of frozen neat semen, an increase in DNA damage was observed after dilution and cooling (5 °C) and after freezing–thawing of NRF semen in SMEY, but only after freezing–thawing for NRF semen diluted in Triladyl^®. Sperm DNA damage of NRF semen increased during in vitro incubation in mSOF; the increase in percentage of spermatozoa with DNA damage was more prominent in SMEY than in Triladyl^®, while the degree of damage was higher in Triladyl^®, throughout the incubation period. However, while the correlation between DNA damage and sperm survival was negative in SMEY throughout the incubation period, a positive correlation was observed in Triladyl^® after 9 h of incubation, indicating a higher presence of DNA damage in the live sperm population. In comparison with Holstein spermatozoa, the sperm DNA integrity of NRF semen reflected a better ability to withstand alterations induced during in vitro incubation in mSOF. In conclusion, sperm DNA integrity of NRF bull semen was altered during the cryopreservation procedure and in vitro incubation in mSOF. Dilution in Triladyl^® maintained bull sperm DNA integrity better than dilution in SMEY. Furthermore, alterations in Holstein sperm DNA integrity was more pronounced during in vitro incubation in mSOF compared to NRF bull spermatozoa.     

Effects of platelet activating factor on the motility and acrosome reaction of bovine spermatozoa

The effects of platelet activating factor (PAF) on motility and the acrosome reaction of ejaculated bull spermatozoa were evaluated. Washed spermatozoa (30 x 10(6)/ml) were incubated (39 degrees C) for up to 2 h with 10 to 200 muM PAF in a modified Tyrode's solution (pH 7.4) containing 3 mg/ml bovine serum albumin. Sperm motility was evaluated subjectively and by computer-assisted semen analysis. Percent acrosome-reacted spermatozoa was quantified microscopically from fixed smears following Giemsa staining. Percent fertilization by PAF-treated spermatozoa was determined using in vitro-matured bovine ova. Percent sperm motility decreased with >/= 50 muM PAF, while the rate of motility loss increased with PAF concentration (P<0.001). Percent acrosome reactions increased with PAF concentration during incubation (P<0.001). Acrosomal loss was rapid and complete with 200 muM PAF. At concentrations between 80 to 120 muM PAF, bull spermatozoa underwent acrosome reactions without a rapid loss of motility and penetrated in vitro-matured bovine ova at a rate comparable to that of heparin-capacitated spermatozoa (68 versus 54%, respectively). Incubation of bull spermatozoa with 10 to 50 muM PAF for 45 min had no effect on percent progressive motility, sperm velocity or other motility parameters. These results indicate that PAF can be used to induce acrosome reactions in bull spermatozoa and to promote in vitro fertilization of bovine ova. Under the conditions used in this study, PAF did not stimulate bovine sperm motility.     

Effects of pH, lactate, and viscoelastic drag on sperm motility: a species comparison

Little or no motility is observed when sperm from 5 mammalian species are incubated in vitro in their cauda epididymal fluid (CEF). We examined the effects of pH, lactate, and viscoelastic drag on sperm motility to determine whether these factors are responsible for this inhibition of motility. The pHs of CEF from bull, dog, rat, guinea pig, and hamster were 5.8, 6.2, 6.9, 6.9, and 7.2, respectively. The lactate concentration of epididymal semen collected from anesthetized animals ranged from 0.6 to 0.9, but increased almost 10-fold in samples from rats or dogs when measured 2 h postmortem. Increasing the pH of CEF to 7.0 resulted in the initiation of full motility for bull and dog sperm. Suspensions of sperm in buffer at various pHs (from 4.0 to 7.6) produced a sigmoidal motility curve for all species. All species, including bull and dog, showed almost full motility in buffer at a pH equal to the pH of their own CEF. Motility of bull and dog sperm showed greater inhibition with decreasing pH when suspended in CEF instead of buffer. The addition of 15 mM lactate, which has been shown to lower sperm intracellular pH, shifted the motility versus pH curves of all species toward higher pH. In bull and dog the addition of lactate produced a motility profile that was indistinguishable from that in their own CEF. The viscoelastic drag of the CEF of only two species, rat and hamster, was sufficiently high to inhibit sperm motility. We conclude that the low pH of the CEF from bulls and dogs plus the presence of lactate is sufficient to cause inhibition of motility.(ABSTRACT TRUNCATED AT 250 WORDS)     

Evaluation of Spermatological Parameters Used to Predict the Fertility of Frozen Bull Semen

Post-thaw motility, velocity and acrosome integrity of frozen semen were determined in 18 bulls with varying fertility (average non-return rates: 71.3 (± 2.8) - range: 65.2-75.7). Five semen straws were investigated from each bull. The average values for sperm motility (percentage motile spermatozoa), sperm velocity (graded from 0-3) and acrosome integrity (proportion of spermatozoa with intact acrosome) were 67.5%, 2.5 and 79.3%, respectively. Significant correlations were found between sperm motility and velocity, but not between sperm motility and acrosome integrity. Both sperm motility and velocity were significantly related to bull fertility. It was concluded that of the post-thaw semen characteristics investigated in this study these 2 parameters provided a reliable basis for prediction of bull fertility.     

The improving effect of reduced glutathione on boar sperm cryotolerance is related with the intrinsic ejaculate freezability

Reduced glutathione (GSH) improves boar sperm cryosurvival and fertilising ability when added to freezing extenders. Poor freezability ejaculates (PFE) are known to present lower resistance than good freezability ejaculates (GFE) to cryopreservation procedures. So far, no study has evaluated whether the ability of GSH to counteract the cryopreservation-induced injuries depends on ejaculate freezability (i.e. GFE vs. PFE). For this reason, thirty boar ejaculates were divided into three equal volume fractions and cryopreserved with or without GSH at a final concentration of either 2 or 5 mM in freezing media. Before and after freeze–thawing, sperm quality was evaluated through analysis of viability, motility, integrity of outer acrosome membrane, ROS levels, integrity of nucleoprotein structure, and DNA fragmentation. Ejaculates were classified into two groups (GFE or PFE) according to their post-thaw sperm motility and viability assessments in negative control (GSH 0 mM), after running cluster analyses. Values of each sperm parameter were then compared between treatments (GSH 0 mM, GSH 2 mM, GSH 5 mM) and freezability groups (GFE, PFE). In the case of GFE, GSH significantly improved boar sperm cryotolerance, without differences between 2 and 5 mM. In contrast, PFE freezability was significantly increased when supplemented with 5 mM GSH, but not when supplemented with 2 mM GSH. In conclusion, PFE need a higher concentration of GSH than GFE to improve their cryotolerance.     

Conserved ram seminal plasma proteins bind to the sperm membrane and repair cryopreservation damage

Whole seminal plasma (SP) enhances the function and fertility of frozen/thawed ram sperm. The objective of the current study was to investigate whether SP proteins capable of binding to molecules from the sperm plasma membrane were conserved among ram breeds, and whether these proteins were sufficient to overcome cryopreservation-induced reductions in sperm quality. Whole ram SP, obtained from rams of various breeds, improved progressive motility of frozen/thawed sperm at all times evaluated (P < 0.05); however, it did not improve total motility (15 min, P = 0.480; 30 min, P = 0.764; and 45 min, P = 0.795). To identify SP proteins responsible for this effect, a new method was developed to retain SP proteins that bound specifically to the sperm membrane by immobilization of sperm membrane proteins. These proteins specifically bound to the sperm surface, especially the acrosomal region. Lactotransferrin, epididymal secretory protein E1, Synaptosomal-associated protein 29, and RSVP-20 were identified (mass spectrometry) in this fraction. The retained SP proteins fraction repaired ultrastructural damage of frozen/thawed sperm and, with the addition of fructose, significantly improved motility of frozen/thawed sperm. We concluded that SP proteins that bound to the sperm membrane were conserved among ram breeds, and that when added to frozen/thawed semen (along with an energy source), they repaired ram sperm damage and enhanced sperm motility.