In vivo, however, not all spermatozoa are necessarily exposed to all secretions from these glands, because sperm cohorts are delivered in differential order and bathe

in seminal plasma (SP) with different concentrations of constituents, including peptides and proteins. Proteins are relevant for sperm function and relate to sperm interactions with the various environments along the female genital tract towards the oocyte vestments. Specific peptides and proteins act as signals for the female immune system to modulate sperm rejection or tolerance, perhaps even influencing the relative intrinsic fertility of the male and/or couple by attaining a status of maternal tolerance towards embryo and placental development. Conclusions  SB203580 nmr Proteins of the seminal plasma have an ample panorama of action, and some appear responsible for establishing fertility. Studies of the male reproductive organs pertaining their basic reproductive biology for diagnostics of dysfunction or for treatment are often restricted to our capability to perform clinical examinations, alongside to collection of samples, especially

in humans. A semen sample reflects the status of the testes, the excurrent learn more ducts, and of the accessory sexual glands, being thus probably the most widely accessible material for most of the above purposes. Semen is classically defined as a fluid conglomerate, where spermatozoa and other cells (classically named round cells, either lining cells of the excurrent ducts, epididymis or accessory glands, migrating leucocytes and even spermatogenic cells) and cell vesicles (epididymidosomes and prostasomes) are suspended in. As per definition, semen is thus divided into ‘cellular’ and ‘acellular’ components, the latter generically named seminal plasma (SP). The SP is built by the combined contribution of the fluids of the cauda epididymides and accessory sexual glands. Species of mammals differ regarding the presence and size of accessory sexual glands, which obviously lead to variations in their relative

contribution to semen composition and volume, particularly regarding SP. In some species, SP represents up to 95–98% of total semen volume.1 Methods for semen collection in human and other animals Bay 11-7085 vary, including masturbation, digital collection, artificial vagina, electroejacualtion. Semen can be collected into a single (bulk sample) or into consecutive vials (split sample). In many species (e.g. human, equine, canine, porcine to name a few), the ejaculate is void in spurts (also called jets) with different compositions, owing to the sequential emission and/or emptying of secretion of the sexual accessory glands.2 Therefore, semen composition – the SP in particular – also differs not only among species, among and within individuals but even within an ejaculate.