The extracellular vesicle tetraspanin CD63 journey from the testis through the epididymis to mature bull sperm.

The important role of extracellular vesicles, which are considered key mediators of intercellular communication under physiological and pathological conditions, in various cellular processes, including those crucial for mammalian reproduction, has been increasingly studied. Tetraspanins, including CD63, are widely used as markers of extracellular vesicles, but they may also play a role in their biogenesis, cargo selection, cell targeting, and uptake. This study aimed to map the journey of the extracellular vesicle protein tetraspanin CD63 from the testis through the epididymis into mature bull sperm via an approach that included immunohistochemistry (immunofluorescence and immunoperoxidase staining), Western blot analysis, and immunoprecipitation analysis.

Complexity and modification of the bull sperm glycocalyx during epididymal maturation.

Mammalian spermatozoa have a surface covered with glycocalyx, consisting of heterogeneous glycoproteins and glycolipids. This complexity arises from diverse monosaccharides, distinct linkages, various isomeric glycans, branching levels, and saccharide sequences. The glycocalyx is synthesized by spermatozoa developing in the testis, and its subsequent alterations during their transit through the epididymis are a critical process for the sperm acquisition of fertilizing ability.

Expression of αV integrin and its potential partners in bull reproductive tissues, germ cells and spermatozoa.

Integrins are transmembrane receptors expressed in all nucleated mammalian cells, critically involved in cell-matrix adhesion and cell-cell interactions that modulate many signalling cascades. It is assumed that integrins also provide essential functions of the reproductive system. In this study, we describe the detailed localization and distribution of αV integrin in the plasma membrane of bull sperm head and tail.

Tetraspanins, More than Markers of Extracellular Vesicles in Reproduction.

The participation of extracellular vesicles in many cellular processes, including reproduction, is unquestionable. Although currently, the tetraspanin proteins found in extracellular vesicles are mostly applied as markers, increasing evidence points to their role in extracellular vesicle biogenesis, cargo selection, cell targeting, and cell uptake under both physiological and pathological conditions. In this review, we bring other insight into the involvement of tetraspanin proteins in extracellular vesicle physiology in mammalian reproduction.

Correction to: Tetraspanins in mammalian reproduction: spermatozoa, oocytes and embryos.

The original article can be found online.

Tetraspanins in mammalian reproduction: spermatozoa, oocytes and embryos.

It is known that tetraspanin proteins are involved in many physiological somatic cell mechanisms. Additionally, research has indicated they also have a role in various infectious diseases and cancers. This review focuses on the molecular interactions underlying the tetraspanin web formation in gametes.

Missing Information from the Estrogen Receptor Puzzle: Where Are They Localized in Bull Reproductive Tissues and Spermatozoa?

Estrogens are steroid hormones that affect a wide range of physiological functions. The effect of estrogens on male reproductive tissues and sperm cells through specific receptors is essential for sperm development, maturation, and function. Although estrogen receptors (ERs) have been studied in several mammalian species, including humans, they have not yet been described in bull spermatozoa and reproductive tissues.

Detection of CD9 and CD81 tetraspanins in bovine and porcine oocytes and embryos.

Tetraspanins are multifunctional molecules located in specific microdomains on the plasma membrane. Thanks to their ability to form networks with other proteins they can participate in many cellular functions. Tetraspanins are part of the interactive network in gametes; however, their precise role in fertilization is not yet clear.

CD9 and CD81 Interactions and Their Structural Modelling in Sperm Prior to Fertilization.

Proteins CD9 and CD81 are members of the tetraspanin superfamily and were detected in mammalian sperm, where they are suspected to form an active tetraspanin web and to participate in sperm⁻egg membrane fusion. The importance of these two proteins during the early stages of fertilization is supported by the complete sterility of CD9/CD81 double null female mice. In this study, the putative mechanism of CD9/CD81 involvement in tetraspanin web formation in sperm and its activity prior to fertilization was addressed.

Analysis of the expression of platelet antigens CD9 and CD41/61 in transgenic rabbits with the integrated human blood clotting factor VIII gene construct.

The objective of this research was to study the expression of cell membrane molecules CD9 and CD41/61 of transgenic rabbit with integrated human factor VIII (rhFVIII) gene construct. The expressions of these molecules have been monitored during two lactations of transgenic rabbits and simultaneously compared with the expression of the same molecules of non-transgenic rabbits. The immunochemical analysis by indirect immunofluorescence, ELISA and indirect immunoperoxidase staining of blood cells and udder tissues show that the insertion of the WAP-hFVIII gene construct into the rabbit genome, do not influence the expression of cell membrane antigens CD9 and CD41/61 on the blood platelets, polymorphonuclear blood cells, milk somatic cells and mammary gland tissues.

Acrosomal and viability status of bovine spermatozoa evaluated by two staining methods.

Artificial insemination with frozen-thawed spermatozoa is commonly used in cattle breeding. A simple and fast procedure is needed for routine evaluation of the acrosomal status of frozen-thawed bovine sperm. Therefore, the purpose of this study was to test two staining procedures used to determine the viability and integrity of acrosome of frozen-thawed bovine spermatozoa.

Biochemical and histochemical characterization of the cattle V red blood cell antigen with monoclonal antibody IVA-41.

The cattle V antigen from the FV blood group system was characterized. Hemolytic as well as immunochemical analyses with monoclonal antibody (MAb) IVA-41 found that V antigen of bovine red blood cells is a membrane-bound, papain- and pronase-sensitive, trypsin- and chymotrypsin-resistant N-glycosylated sialoglyco-protein with molecular weight of 64, 56, and 50 kDa under no reduction and 23 kDa under reduction conditions. In contrary to some human blood group antigens, the expression of bovine blood group V antigen is restricted to the erythrocyte membrane.

Identification of MCP/CD46 analogue on bovine erythrocytes using the new monoclonal antibody IVA-520.

MCP/CD46 is a widely distributed C3b/C4b binding regulatory glycoprotein of the complement system that has been identified on all human peripheral blood cells except erythrocytes. In this paper, we describe the identification of bovine CD46 on all blood cells, including erythrocytes, with the newly prepared monoclonal antibody IVA-520. This antibody cross-reacts with human and pig cells.

Monoclonal antibody to the light chain of bovine immunoglobulin.

Monoclonal antibody IVA-285 (IgG1 isotype) recognizing antigenic determinant on bovine and ovine immunoglobulin light chain was produced and characterized. Western blot analysis of bovine immunoglobulin G (IgG) and immunoglobulin M (IgM) purified from bovine blood serum as well as whole immunoglobulin fractions of bovine and ovine serum with IVA-285 showed a molecular weight in the 24-27 kd range corresponding to the Ig light chain of bovine Ig. IVA-285 recognizes the Ig light chain on Ig+ lymphocyte subpopulation and in the majority of body fluids; however, especially strong reactions were observed in bovine tissues (lymph node follicles, plasma cells, and Ig deposits in various tissues).