The present study was conducted to identify the major seminal plasma protein profile of boars and its associations with semen criteria. Semen samples were collected from 12 adult boars and subjected to evaluation of sperm parameters (motility, morphology, vitality, and percent of cells with intact acrosome). Seminal plasma was obtained by centrifugation, analyzed by two-dimensional SDS-PAGE, and proteins identified by mass spectrometry (electrospray ionization quadrupole time-of-flight). We tested regression models using spot intensities related to the same proteins as independent variables and semen parameters as dependent variables (P ≤ 0.05). One hundred twelve spots were identified in the boar seminal plasma gels, equivalent to 39 different proteins. Spermadhesin porcine seminal protein (PSP)-I and PSP-II, as well as spermadhesins AQN-1, AQN-3 and AWN-1 represented 45.2 ± 8% of the total intensity of all spots. Other proteins expressed in the boar seminal plasma included albumin, complement proteins (complement factor H precursor, complement C3 precursor and adipsin/complement factor D), immunoglobulins (IgG heavy chain precursor, IgG delta heavy chain membrane bound form, IgG gamma-chain, Ig lambda chain V-C region PLC3, and CH4 and secreted domains of swine IgM), IgG-binding proteins, epididymal-specific lipocalin 5, epididymal secretory protein E1 precursor, epididymal secretory glutathione peroxidase precursor, transferrin, lactotransferrin and fibronectin type 1 (FN1). On the basis of the regression analysis, the percentage of sperm with midpiece defects was related to the amount of CH4 and secreted domains of swine IgM and FN1 (r² = 0.58, P = 0.006), IgG-binding protein (r² = 0.41, P = 0.024), complement factor H precursor (r² = 0.61, P = 0.014) and lactadherin (r² = 0.45, P = 0.033). The percentage of sperm with tail defects was also related to CH4 and secreted domains of swine IgM and FN1 (r² = 0.40, P = 0.034), IgG-binding protein (r² = 0.35, P = 0.043) and lactadherin (r² = 0.74, P = 0.001). Sperm motility, in turn, had association with the intensities of spots identified as lactadherin (r² = 0.48, P = 0.027). In conclusion, we presently describe the major proteome of boar seminal plasma and significant associations between specific seminal plasma proteins and semen parameters. Such relationships will serve as the basis for determination of molecular markers of sperm function in the swine species.
The present study evaluated functional aspects of binder of sperm 1 (BSP1) in the bovine species. In a first experiment, cumulus-oocyte complexes (n = 1274) were incubated with frozen-thawed ejaculated sperm (18 hours) in Fert-TALP medium containing: heparin, 10, 20, or 40 μg/mL BSP1. Heparin followed by gelatin affinity chromatography was used for purification of BSP1 from bovine seminal vesicle fluid. With ejaculated sperm, cleavage rates were similar when Fert-TALP medium was incubated with heparin (74.1 ± 2.7%), 10 μg/mL BSP1 (77.8 ± 3.1%), or 20 μg/mL BSP1 (74 ± 2.0%). Day-7 blastocyst rates were equivalent after incubations with heparin (40.8 ± 5.0%) and 10 μg/mL BSP1 (34.1 ± 4.4%), but reduced after 20 μg/mL BSP1 (22.4 ± 2.9%) and 40 μg/mL BSP1 (19.3 ± 4.1%; P < 0.05). In the second experiment, cumulus-oocyte complexes (n = 1213) were incubated with frozen-thawed cauda epididymal sperm (18 hours) in Fert-TALP medium containing: no heparin, heparin, 10, 20, or 40 μg/mL. Cleavage and blastocyst rates were similar after treatments with heparin (68.5 ± 1.3% and 24.7 ± 3.2%, respectively) or without heparin (65.5 ± 1.8% and 27.3 ± 1.6%, respectively). Cleavage was higher after treatment with any BSP1 concentrations (74.2 ± 2.7%-79.0 ± 1.1%) than without heparin (P < 0.05). Also, cleavage was better after Fert-TALP medium incubation with 40 μg/mL BSP1 (79.0 ± 1.1%) than with heparin (68.5 ± 1.3%; P < 0.05). Embryo development was higher (P < 0.05) after treatment with 20 μg/mL BSP1 (35.6 ± 2.5%) and 40 μg/mL (41.1 ± 2%) than after incubations with heparin (24.7 ± 3.2%) or without heparin (27.3 ± 1.6%). Interestingly, BSP1 did not cause reductions in blastocyst rates after fertilization with epididymal sperm, as observed with ejaculated sperm. On the basis of immunocytochemistry, there was BSP1 binding to frozen-thawed ejaculated but not to epididymal sperm. Also, anti-BSP1 reaction remained on ejaculated sperm (as expected) and appeared on epididymal sperm after incubation with purified BSP1. Acrosome reaction of ejaculated and epididymal sperm was induced after incubation with purified BSP1 as well, indicating an effect of BSP1 on capacitation. In conclusion, purified BSP1 from bull seminal vesicles was able to bind to and induce capacitation of ejaculated and epididymal sperm. Also, BSP1 added to fertilization media and allowed proper cleavage and embryo development, with the effects being modulated by previous exposure or not of spermatozoa to seminal plasma.
The present study evaluated the effects of heat stress on the ram seminal plasma proteome. Six Morada Nova rams were scrotal insulated for 8 days. Scrotal circumference, sperm parameters, and seminal fluid proteins were evaluated before (Day 0) and twice during scrotal insulation (Days 4 and 8), and weekly until semen parameters returned to preinsulation values (normal). Seminal proteins were analyzed by two-dimensional SDS-PAGE and mass spectrometry. Scrotal circumference decreased from 30 ± 0.4 cm on Day 0 to 22.6 ± 0.6 cm on Day 36 (P < 0.05) and became equivalent to preinsulation values on Day 71. Motile sperm became nearly absent from Day 8 to Day 64 but returned to normal on Day 113. Percentage of normal sperm changed similarly and returned to normal on Day 106. Rams were azoospermic between Days 29 and 64, and sperm concentration came back to normal on Day 92. The number of spots/two-dimensional gel reduced from 256 ± 31 on Day 0 to 104 ± 14 on Day 29 (when rams were azoospermic) and then increased to 183 ± 9 on Day 113 (P < 0.05), similar to spot counts before insulation. The intensities of 24 spots, referring to 17 seminal plasma proteins, were affected by treatment (P < 0.05). After insulation, seminal plasma had greater expression of actin (two isoforms), albumin, heat shock protein 70 kDa, protein DJ-1, HRPE773-like, C-reactive protein precursor, bodhesin-2 (one isoform), spermadhesins. Most protein spots had the greatest intensity between Days 8 and 29, returning to preinsulation values on Day 113 (when many sperm criteria returned to normal). Proteins downregulated after scrotal insulation included dipeptidyl peptidase 3, isoforms of heat shock protein 90 kDa, RSVP22, MMP2 and of Bdh2. In this case, RSVP22 was reduced on Day 113 and all others, on Day 134. Expression of MMP2 and HSP90.1 was reduced throughout the study. Integrin β5, V-type H(+)-ATPase subunit A, ZBTB 42-like protein, isoforms of Bdh2, PSP-I, and RSVP22 were upregulated after testis insulation. Intensities of these spots were maximum (P < 0.05) 8 days after insulation started or on Day 29. Expression of most of such proteins returned to normal on Day 113. In conclusion, scrotal insulation affected testis and sperm parameters of rams, indicating alterations in both spermatogenesis and sperm maturation. Changes of seminal plasma proteome were coincidental with variations in semen parameters. Proteins affected by heat challenge are potentially involved in sperm protection, maturation, and fertilization.
Resumo -O objetivo deste trabalho foi estimar correlações genéticas e fenotípicas de características reprodutivas e ponderais em 579 touros Nelore, em criação extensiva. As características reprodutivas estudadas foram: circunferência escrotal, consistência, volume e forma testiculares, comprimento dos testículos esquerdo e direito, largura dos testículos esquerdo e direito, motilidade e vigor espermáticos, defeitos espermáticos maiores, menores e totais e classificação andrológica por pontos. As características foram analisadas pelo método de máxima verossimilhança restrita, com algoritmos livres de derivadas, sob modelo animal, com inclusão da matriz de numeradores dos coeficientes de parentesco entre os animais e seus ascendentes. As correlações genéticas entre circunferência escrotal e as características peso corporal, volume testicular, motilidade espermática, vigor espermático, defeitos espermáticos menores, defeitos espermáticos totais e classificação andrológica por pontos foram, respectivamente, 0,72, 0,99, 0,72, 0,60, -0,67, -0,12 e 0,64. As maiores correlações fenotípicas encontradas entre peso e circunferência escrotal, características físicas e morfológicas do sêmen, quando comparadas às correlações entre idade e as mesmas características, são indicativas de que o peso tem maior influência na condição reprodutiva. As correlações genéticas entre classificação andrológica por pontos e as características: peso, circunferência escrotal, volume testicular, defeitos espermáticos maiores e defeitos espermáticos totais foram, respectivamente, 0,19, 0,64, 0,71, -0,47 e -0,58.Termos para indexação: Bos indicus, característica seminal, genética, reprodução. Genetic and phenotypic correlations among reproductive and productive traits of Nelore bullsAbstract -The aim of this work was to estimate genetic and phenotypic correlations for sexual reproductive and productive traits using a Multiple Trait Derivative-Free Restricted Maximum Likelihood (MTDFREML) methodology in 579 Nelore bulls, raised under pasture. The reproductive traits analyzed were scrotal circumference, testicular consistency, testicular volume, testicular shape, length and width of right and left testicles, physical (motility and vigor) and morphological (major and minor, and total sperm defects) semen traits, and breeding soundness evaluation. Genetic correlations between scrotal circumference and body weight, testicular volume, motility, vigor, minor sperm defects, total sperm defects and breeding soundness evaluation were, respectively, 0. 72, 0.99, 0.72, 0.60, -0.67, -0.12 e 0.64, showing favorable associations of scrotal circumference and the characteristics related. Phenotypic correlations of major magnitude found among ages and the above-related characteristics suggested to be the body weight the major factor affecting the reproductive performance of those animals. Genetic correlations among breeding soundness evaluation, body weight, scrotal circumference, testicular volume, major sperm defects and total sperm defects were, respectively, 0...
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