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Target Concepts:
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Query: EC:3.2.1.36 (
hyaluronidase
)
4,606
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Three approaches are utilized to study and characterize spermatozoal antigens. An immunological approach has demonstrated the presence of spermatozoal auto-, iso- and allo-antigens. Spermatozoal auto-antigens studies by several authors are able to induce the whole spectrum of immune reactions (delayed hypersensitivity, complement-fixing antibodies and anaphylactic antibodies0 as well as of autoimmune aspermatogenic orchiepididymitis (AIAO). Different extraction procedures result in various preparations and even in different independent autoantigens (at least four), one protein, one membrane-linked antigen and at least two glyco-proteins. Spermatozoal iso-antigens stricto sensu are determined by the Y chromosome and present on at least 50% of the spermatozoa. Spermatozoal allo-antigens are also present at the surface of spermatozoa, especially blood group antigens (ABO and MNS systems), transplantation antigens (HL-A, H-2) and also some other unidentified ones. A biochemical approach has mainly been directed towards spermatozoal enzymes that have been directed towards spermatozoal enzymes that have been shown to be antigenic even in the species of origin. This is the case for lactic dehydrogenase LDH-X (a mid-piece enzyme) and for acrosomal enzymes, e.g.,
hyaluronidase
, possibly sorbitol dehydrogenase and trypsin-like acrosomal proteinase (the auto- and allo-antigenicity of the latter having not been established). At least three of these enzymes are known or supposed to play a role in the process of fertilization. A clinical approach has described the presence of spermatozoal-coating antigen(s), such as transferrin or blood group substances from secretors obtained following the admixture of the secretions of the
seminal vesicles
. Indications were also obtained for the existence of antibodies directed against defined antigens. Several types of localization of antibodies on spermatozoa were described: acrosome (front part), equatorial segment, post-nuclear region, mid-piece and tail. Attempts at fractionation of human psermatozoal antigens are still at a preliminary stage. Whatever the approach, the main interest of these antigens is that they are able to induce, in the species of origin or in a related species antibodies capable of interfering with the normal process of reproduction, especially fertilization..
...
PMID:Characterization of spermatozoal auto-, iso- and allo-antigens. 4 84
Flutamide, a pure antiandrogen, increases the levels of plasma luteinizing hormone but antagonizes the biological expression of androgen on target organs. Flutamide was administered to rats to study the effect of altered availability of hormones on the functional status of epididymis. The weights of ventral prostate,
seminal vesicles
and epididymis showed antiandrogenic effects of flutamide. However, increased activity of kidney beta-glucuronidase reflected increased availability of testosterone. The concentrations of protein and DNA along with the activities of acid phosphatase and
hyaluronidase
decreased in flutamide-treated rats. The activities of acid phosphatase and
hyaluronidase
in epididymal sperms along with protein concentration increased in flutamide-treated rats. Alteration of epididymal function by treatments affecting lysosomal stability was indicated.
...
PMID:Effect of flutamide on the physiological status of epididymis and epididymal sperms. 160
The injection into the dorsal skin of a suspension of guinea pig testis or spermia incorporated in a water-in-oil emulsion containing killed mycobacteria induces aspermatogenesis in guinea pigs. The injury begins with the inhibition of the maturation of spermia and proceeds through the degeneration and exfoliation of spermatids, spermatocytes, and finally spermatogonia. These germinal cells pass from the seminiferous tubules into the epididymis. The process is not associated with inflammation. No significant changes occur in the intertubular spaces and the Leydig cells do not seem to be affected. The
seminal vesicles
and the prostate remain normal. The aspermatogenesis may begin in 10 days and it lasts for more than 5 months. The process may lead to atrophy of the seminiferous tubules and fibrosis. Guinea pigs which receive a suspension of their own testis or spermia and adjuvants develop a similar injury. The "mitochondrial" fraction of the testis of guinea pig is effective while repeated injections of alcoholic extract of testis emulsified with paraffin oil containing mycobacteria do not cause aspermatogenesis. The presence of acid-fast bacilli in the water-in-oil emulsion containing testis or spermia seems to be essential for the production of testicular lesions; the injection of antigen and mycobacteria into different sites is ineffective. When guinea pig testis is replaced by guinea pig liver or kidney or rabbit testis no testicular damage occurs. The injection of rabbit spinal cord combined with adjuvants results in allergic encephalomyelitis in a large proportion of guinea pigs, accompanied by a great loss of weight. The testes of a few of these animals show a varying degree of aspermatogenesis. When guinea pig brain is combined with adjuvants and administered subcutaneously the incidence of testicular injury is high, although the damage is, in general, mild. From the standpoint of mechanism, the inhibition of spermatogenesis which occurs in these animals may be unrelated to the injury which follows the injection of germinal cells. Aspermatogenesis follows the injection of killed mycobacteria in paraffin oil into the testis as well as into certain sites related to the gonad: the abdominal cavity, the subcutaneous tissue over the abdomen, and the skin of the inguinal region. Antibodies fixing complement in the presence of spermia are demonstrable in the sera of guinea pigs injected with testis or spermia and adjuvants. When the mycobacteria are omitted the titers are low and no testicular injury occurs. Although there seems to be a correlation between testicular damage and complement-fixing titer, this may not be a causal relationship. Antibodies which neutralize guinea pig
hyaluronidase
and those which immobilize spermia have also been demonstrated in the sera of these guinea pigs.
...
PMID:Aspermatogenesis in the guinea pig induced by testicular tissue and adjuvants. 1305 29
A widely conserved sperm antigen, the sperm adhesion molecule 1 (SPAM1 or PH-20) is a glycosylphosphatidyl inositol-linked protein with multiple roles in mammalian fertilization. It has been shown to be dually expressed in testis and epididymis and this is conserved in the four species (mouse, rat, macaques, humans) that have been studied to date. Here, we report Spam1 RNA and protein expression in the murine vas deferens and efferent ducts. In situ hybridization and immunohistochemistry indicate that transcript and protein are distributed in the nonciliated epithelial cells and that the efferent ducts have the most intense staining of all three regions of the excurrent ducts. Spam1 products were also present in the accessory organs, the prostate, and
seminal vesicles
and its fluid. Using hyaluronic acid substrate gel electrophoresis,
hyaluronidase
activity at pH 7.0 was detected in the vas deferens but was absent from the efferent ducts, the prostate, and the
seminal vesicles
/fluid. This suggests that Spam1 may play a nonenzymatic role in these organs. In the efferent ducts, where Spam1 is enriched in the apical (but not basolateral) membrane of nonciliated cells, it is likely to play a role in sperm concentration, which is the established function of that organ.
...
PMID:Spam1 (PH-20) expression in the extratesticular duct and accessory organs of the mouse: a possible role in sperm fluid reabsorption. 1517 39
