Heparin-binding proteins (designated BHB-2-BHB-9) were isolated from boar seminal plasma by affinity chromatography on heparin immobilized on polyacrylamide gel, followed by reverse phase HPLC. According to their N-terminal amino acid sequences, BHB-3-BHB-5 belong to the AQN family of spermadhesins and BHB-7-BHB-9 to the AWN family. BHB-6 is composed of two different proteins. The dominant protein (14 kDa) has the N-terminal amino acid sequence HNKQEGRDHD that is identical to the sequence of human semenogelin at positions 85-94. The minor proteins (16 and 17 kDa) belong to the AWN family of spermadhesins. The 14 kDa HNK protein does not crossreact with antibodies against AQN or AWN spermadhesins. BHB-2 also binds to the acrosome of boar epididymal spermatozoa but has the N-terminal sequence DQH. Therefore, basic protein BHB-2 belongs to a new family of DQH sperm surface proteins that are homologous to the acidic proteins from bull and stallion seminal plasma, to the collagen binding domain II in fibronectin and to the leucocyte cell-cell adhesion regulator, but are not homologous to AQN or AWN spermadhesins. Nevertheless, anti-AQN-1 spermadhesin antibodies crossreact strongly with DQH protein. All boar heparin-binding proteins bind concanavalin A indicating their glycoprotein nature, which was proved by the detection of glucosamine and galactosamine residues in their molecules. Furthermore, spermadhesins interact with zona pellucida, protease inhibitors and a polyacrylamide derivative of heparin. Affinity chromatography experiments showed that the DQH protein bound to gelatin-agarose together with the AWN proteins and that the DQH protein and AQN-1 spermadhesin belong to the phosphoryl choline binding proteins.
The immunosuppressive component was isolated from boar seminal vesicle secretion and administered i.p. or rectally to male mice. By means of the immunofluorescent method, the seminal immunosuppressive component was found on the membranes of 50-70% of white blood cells of treated mice the first day after i.p. and the third day after rectal administration. The immunosuppressive component was observed on the membranes of 10-20% of white cells even at the 17th day after treatment. Intraperitoneal or rectal administration of the immunosuppressive component led to a decrease in the white cell concentration in blood of treated mice. These findings indicate that rectal deposition of semen may compromise some aspects of the immune system and may be an important cofactor in the development of viral or bacterial infections among homosexual men.
Cumulus cells surrounding pre-ovulatory human oocytes were found to secrete a variety of proteins which became firmly associated with the cumulus intercellular material. Antibodies raised against human cumuli oophori completely blocked fertilization in vitro by impairing the sperm-zona pellucida interaction. A group of glycoproteins of high mol. wt were identified as the main cumulus cell secretory products. These proteins showed a marked affinity for human spermatozoa and were potent stimulators of the conversion of human and boar proacrosin into acrosin and of human sperm acrosome reaction. Another fraction of proteins of human cumulus intercellular matrix with an apparent mol. wt of approximately 25,000 daltons was also found to stimulate significantly the acrosome reaction of human spermatozoa, although this fraction had no proacrosin-converting activity. These results indicate that proteins secreted by pre-ovulatory human cumulus cells have an indispensable role in the development of human sperm fertilizing ability. This effect seems to be realized by a concerted action of different types of cumulus-derived proteins just prior to and during the sperm-zona pellucida interaction. Disorders of cumulus cell secretory activity may account for some cases of idiopathic infertility and repeated IVF failures.
Repeated i.p. or rectal treatment of male and female mice with an immunosuppressive component isolated from boar seminal vesicle secretion reduced responses of B lymphocytes to mitogen as evaluated by [3H]thymidine or bromo-deoxyuridine incorporation. The proliferative activity of T lymphocytes was not affected. By means of the immunofluorescence method, the seminal immunosuppressive component was detected on the membranes of B lymphocytes separated from the spleens of mice treated in vivo with immunosuppressor. An i.p. injection or rectal infusion of the immunosuppressive component also led to a suppression of primary antibody response to soluble and particulate antigens. These findings indicate that in vivo deposition of semen may compromise some aspects of the immune system and may be an important cofactor in the development of viral and bacterial infections in homosexual men.
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