Equine seminal plasma and sperm membrane: Functional proteomic assessment.

During ejaculation, a large amount of seminal plasma proteins interact with the sperm membrane, leading to a series of biochemical and structural changes implicated in sperm function and gamete interaction. However, the roles of the majority of these proteins remain unknown. This study aimed to investigate the proteome and functionality of the major equine proteins of seminal plasma and the sperm membrane. Seminal plasma and enriched-membrane proteins (150 µg) were separated by two-dimensional gel electrophoresis, and the respective maps were analyzed. Protein identification was performed by in-gel digestion and tandem mass spectrometry (GeLC-MS/MS). Samples were also submitted to in-solution digestion (complex protein mixture) and identified by shotgun analysis by LC-MS/MS; bioinformatic tools were used to investigate protein functions. Seminal plasma and sperm membrane extract maps contained 91.0 ± 8.2 spots and 245.3 ± 11.3 spots, respectively, within the 3-10 pH range. In total, the most abundant proteins identified in 2D maps and in complex protein mixtures included 24 proteins for seminal plasma and 33 for sperm membrane extract, with a high degree of confidence (P < 0.05). Of these, HSP1, CRISP3 and KLK1E2 were the most abundant in seminal plasma; HSP1 was highly abundant in sperm membrane extract, in many isoforms, which is related to membrane destabilization and may compromise sperm preservation. HSP1-polybromo-1 interactions suggested a role in DNA stabilization. Prosaposin was identified in seminal plasma and may play a role in the fertilization process. IZUMO4, a member of the IgSF family involved in the prefertilization stages, was identified in 2D gel and MS/MS analysis of sperm membrane extract. Ten proteins of seminal plasma were found to interact with the sperm membrane and were related to binding and catalytic activities (clusterin, CRISP3, epididymal sperm-binding protein 1, kallikrein1E2, seminal plasma protein A3, and HSP1). Additionally, other identified proteins were associated with DNA integrity, capacitation and recognition of pregnancy. These findings indicate that the binding of specific proteins to the plasma membrane during ejaculation may influence sperm survival after cryopreservation and may play a role in decreasing the quality in stallions with toxic seminal plasma. Elucidation of these interactions is an important step in understanding the biological processes related to equine fertility and facilitates future investigations on the selection and application of low freezability semen strategies.

Efeito da adição de plasma seminal oriundo de animais de alta e baixa fertilidade na criopreservação de espermatozoides da cauda do epidídimo e do ejaculado de garanhões subférteis / Effect of seminal plasma addition from high and low fertility animals on the cryopreservation of epididymal tail and ejaculated sperm from subfertile stallions

O objetivo do presente estudo foi avaliar o efeito da adição de plasma seminal de garanhões de alta e baixa fertilidade sobre a congelabilidade e a viabilidade de espermatozoides do ejaculado (EJ) e do epidídimo (EP) de garanhões subférteis. Foram utilizados seis garanhões com histórico de subfertilidade. Após coleta, espermatozoides do ejaculado foram divididos em três alíquotas: BotuSêmen® (EJ-CT); plasma seminal de alta qualidade espermática (EJ-PS1); e plasma seminal de baixa qualidade espermática (EJ-PS2). O mesmo protocolo foi realizado com espermatozoides da cauda do epidídimo após orquiectomia (EP-CT; EP-PS1; EP-PS2). Foram realizadas avaliações da cinética espermática pelo CASA e análises de integridade de membrana, acrossoma, fragmentação de DNA, capacitação espermática e peroxidação espermática por citometria de fluxo. Não foram observadas diferenças na cinética espermática entre EJ e EP, logo após a descongelação. Porém, foi observada maior (P<0,05) porcentagem de células com membranas plasmática e acrossomal íntegras nos grupos EP (EP-CT:31,7±7,5b; EP-PS1:35,2±7,0b; EP-PS2:33,9±7,2b) em comparação aos grupos EJ (EJ-CT:15,1±4,9a; EJ-PS1:11,7±4,5a; EJ-PS2:13,1±5,2a). Adicionalmente, foram observadas diferenças no índice de fragmentação de DNA (EJ-CT:2,6±0,6a; EJ-PS1:2,4±0,8a; EJ-PS2:3,0±0,8a; EP-CT:1,4±0,4b; EP-PS1:1,2±0,3b; EP-PS2:1,3±0,2b). Concluiu-se que a adição de 20% de plasma seminal, oriundo de animais férteis ou subférteis, previamente à congelação de espermatozoides epidídimários de animais subférteis não interfere na qualidade espermática.(AU)

The aim of this study was to compare the effect of the addition of seminal plasma from high and low fertility stallions on sperm viability of frozen-thawed sperm cells from ejaculate and from epididymal tail of subfertile stallions. Six stallions with a history of subfertility were used. After collection, ejaculate spermatozoa were divided into three aliquots: Botu-Semen® (EJ-CT); High-quality seminal plasma (EJ-PS1); Low-quality seminal plasma (EJ-PS2). The same was done with sperm cells from epididymis tail after orchiectomy (EP-CT; EP-PS1; EP-PS2). Evaluations of sperm kinetics were assessed by CASA and membrane and acrosome integrity, DNA fragmentation, sperm capacitation and sperm peroxidation were assessed by flow cytometry. After thawing, no differences were observed between ejaculated sperm (EJ) and epididymal sperm (EP) in any CASA evaluations. However, higher (P< 0.05) percentage of cells with intact plasma and acrossomal membranes was observed in EP groups (EP-CT:31.7±7.5b; EP-PS1:35.2±7.0b; EP-PS2:33.9±7.2b) compared to EJ groups (EJ-CT:15.1±4.9a, EJ-PS1:11.7±4.5a, EJ-PS2:13.1±5,2a). In addition, differences in DNA fragmentation index were observed (EJ-CT:2.6±0.6a; EJ-PS1:2.4±0.8a; EJ-PS2:3.0±0.8a; CT:1.4±0.4b; EP-PS1:1.2±0.3b; EP-PS2:1.3±0.2b). It was concluded that the addition of 20% seminal plasma from fertile or subfertile animals prior to the freezing of epididymal spermatozoa from subfertile animals does not interfere in sperm quality.(AU)