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In vitro synthesis of different antigens related to the major secretory protein of the rat seminal vesicle epithelium.
No full textPoly/A)+mRNA, prepared from rat seminal vesicles (RSV), was translated in a rabbit reticulocyte cell-free system. Among the translation products, three proteins (A, B and C), immunologically related to a major RSV secretory protein (RSV-IV), were detected. Recombinenta plasmids, harbouring specific cDNA sequences for RSV-IV, were used to positively select the mRNAs for antigens A and B. Phosphorylation sites were mainly detectable in the antigen B
In vitro synthesis of different antigens related to the major secretory protein of the rat seminal vesicle epithelium.
No full textPoly/A)+mRNA, prepared from rat seminal vesicles (RSV), was translated in a rabbit reticulocyte cell-free system. Among the translation products, three proteins (A, B and C), immunologically related to a major RSV secretory protein (RSV-IV), were detected. Recombinenta plasmids, harbouring specific cDNA sequences for RSV-IV, were used to positively select the mRNAs for antigens A and B. Phosphorylation sites were mainly detectable in the antigen B
Rat Protein-SV-IV (seminal-vesicle Protein No-4) Accelerates Human Blood-coagulation In-vitro By Selective-inhibition of Antithrombin-III
No full textThe seminal vesicle protein No. 4 (SV-IV) secreted from the rat seminal vesicle epithelium, possesses immunosuppressive and anti-inflammatory properties and it is a potent inhibitor of platelet aggregation both in vivo and in vitro. This research aimed to investigate the possible effect of SV-TV on the process of human blood coagulation. Preliminary experiments showed that the recalcification time (RT) of platelet-poor plasma (PPP) samples, obtained from both normal subjects and patients affected by some hemorrhagic disorders, was found to be markedly reduced in the presence of micromolar amounts of SV-IV. It was demonstrated that the concentration of free antithrombin III (AT III) occurring in blood sera obtained from PPP samples recalcified in the presence of SV-IV was significantly decreased in comparison with sera obtained from PPP recalcified in the absence of SV-IV. It was also shown that PPP treatment with SV-IV significantly reduced the concentration of free AT III without affecting the levels of other plasma serine protease inhibitors, such as alpha(2)-macroglobulin, alpha(1)-antitrypsin and C-1-inhibitor. In addition, the RT of PPP treated with a specific rabbit anti-AT III polyclonal antiserum (anti-AT III treated PPP) was not modified by SV-IV. These findings were confirmed by the observation that the addition of SV-IV into an in vitro coagulation system, containing pure fibrinogen, alpha-thrombin and AT-III, resulted in complete suppression of thrombin inhibition by AT III. No other steps of the blood clotting process (prothrombinase complex, factor XIII, fibrinogen concentration) were affected by SV-IV
Synthesis of a testosterone dependent secretory protein by rat seminal vesicle-derived cell lines
No full textPrimary cell cultures were established from explants of rat seminal vesicle. The establishment of primary cell cultures required, among other factors, the presence of testosterone. Two cell populations were detected in such primary cultures: fibroblast-like cells and epithelial-like cells; the latter encompassed a subtype of small cells and a subtype of large squamous cells (most likely the result of a degenerative process acting upon the former). Histochemical, as well as electron-microscopical observations, indicated the presence of a persistent secretory activity in the small epithelial cells; fibroblast and large squamous epithelial cells were inactive in this respect. Staining of the cells with a peroxidase-conjugated antibody and analysis of the proteins produced in the presence of labelled methionine, showed that one of the major rat seminal vesicle secretory proteins, namely RSV-IV, was also produced. Conditions which favoured the growth of epithelial cells, rather than of fibroblasts, were determined. The use of nearly homogeneous cell populations and the use of collagen-coated Petri dishes, allowed the cloning of two independently obtained permanent cell lines, namely SVC-1 and SVC-2. The in vitro growth rate of both cell lines was modulated by the amount of testosterone in the medium. Both cell lines were able to synthesize a significant amount of RSV-IV protein under testosterone control
The 11s rat seminal vesicle mRNA directs the in vitro synthesis of two precursors of the major secretory protein IV
No full textThe 11s mRNA extracted from the rat seminal vesicles directs the synthesis of two different precursors of the major secretory protein RSV-IV. These two precursors are not interconvertible and seemingly originate from different translational events. Sucrose gradients, polyacrylamide gel electrophoresis and positive hybridization translation experiments do not allow the separation of the two putatively different mRNAs. It is concluded that the two RSV-IV precursors either derive from two extremely similar, but physically not separable mRNA species, or from two different modes of translation of the same mRNA molecule
Expression in male and genomic organization of the gene(s) coding for a major protein secreted by the rat seminal vesicle epithelium
No full textDouble strand cDNA copies of lls poly(A)+mRNA purified from adult rat seminal vesicles (RSV), have been cloned in E.coli C600 using the Pst I site of pBR322. Filter hybridization, nucleotide sequence analysis and positive hybridization translation were used to demonstrate that one of the recombinant plasmids obtained (pRSV25) contained a 260 bp long insert coding for a significant part of the precursor to the protein IV present in the RSV secretion. By using labelled pRSV25 DNA we have found that high levels of RSV IV mRNA were present only in the rat seminal vesicle epithelium. The amounts of RSV IV mRNA present in other tissues of the same organism were below the levels detectable by the methods used. In addition, other data reported here indicate that the RSV IV gene(s) is present in both sexes, probably with a different organization
Expression in male and genomic organization of the gene(s) coding for a major protein secreted by the rat seminal vesicle epithelium
No full textDouble strand cDNA copies of lls poly(A)+mRNA purified from adult rat seminal vesicles (RSV), have been cloned in E.coli C600 using the Pst I site of pBR322. Filter hybridization, nucleotide sequence analysis and positive hybridization translation were used to demonstrate that one of the recombinant plasmids obtained (pRSV25) contained a 260 bp long insert coding for a significant part of the precursor to the protein IV present in the RSV secretion. By using labelled pRSV25 DNA we have found that high levels of RSV IV mRNA were present only in the rat seminal vesicle epithelium. The amounts of RSV IV mRNA present in other tissues of the same organism were below the levels detectable by the methods used. In addition, other data reported here indicate that the RSV IV gene(s) is present in both sexes, probably with a different organization
Synthesis of a testosterone dependent secretory protein by rat seminal vesicle-derived cell lines
No full textPrimary cell cultures were established from explants of rat seminal vesicle. The establishment of primary cell cultures required, among other factors, the presence of testosterone. Two cell populations were detected in such primary cultures: fibroblast-like cells and epithelial-like cells; the latter encompassed a subtype of small cells and a subtype of large squamous cells (most likely the result of a degenerative process acting upon the former). Histochemical, as well as electron-microscopical observations, indicated the presence of a persistent secretory activity in the small epithelial cells; fibroblast and large squamous epithelial cells were inactive in this respect. Staining of the cells with a peroxidase-conjugated antibody and analysis of the proteins produced in the presence of labelled methionine, showed that one of the major rat seminal vesicle secretory proteins, namely RSV-IV, was also produced. Conditions which favoured the growth of epithelial cells, rather than of fibroblasts, were determined. The use of nearly homogeneous cell populations and the use of collagen-coated Petri dishes, allowed the cloning of two independently obtained permanent cell lines, namely SVC-1 and SVC-2. The in vitro growth rate of both cell lines was modulated by the amount of testosterone in the medium. Both cell lines were able to synthesize a significant amount of RSV-IV protein under testosterone control
The 11s rat seminal vesicle mRNA directs the in vitro synthesis of two precursors of the major secretory protein IV
No full textThe 11s mRNA extracted from the rat seminal vesicles directs the synthesis of two different precursors of the major secretory protein RSV-IV. These two precursors are not interconvertible and seemingly originate from different translational events. Sucrose gradients, polyacrylamide gel electrophoresis and positive hybridization translation experiments do not allow the separation of the two putatively different mRNAs. It is concluded that the two RSV-IV precursors either derive from two extremely similar, but physically not separable mRNA species, or from two different modes of translation of the same mRNA molecule
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