Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.27.1 (RNase)
 16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nuclei isolated from proliferating granulation tissue were incubated with 20 000 g supernatants from untreated and SiO2-treated subcellular particles of rat peritoneal macrophages in the presence of radioactive nucleic acid precursors. The supernatant from SiO2-treated subcellular particles increased the incorporation of [3H]CTP into nuclear RNA maximally by 26% at 5 min, and that of [methyl-3H]dTTP into DNA by 16% at 20 min. The release of radioactivity from labeled DNA was suppressed simultaneously. An RNase preparation from rat peritoneal macrophages enhanced the release of radioactivity from labeled DNA similarly as the soluble fraction from untreated subcellular particles of macrophages. The results suggest that the effects of the soluble fractions upon DNA metabolism of granuloma cells are at least partly independent of the effects on RNA metabolism and that the soluble fraction from SiO2-treated subcellular particles of macrophages stabilizes DNA through inhibition of nuclease activity.
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PMID:Effects of soluble fractions from untreated and SiO2-treated subcellular particles of macrophages on nucleic acid metabolism in isolated nuclei of experimental granulation tissue. 22 Aug 32

The medium of cultured, SiO2-treated peritoneal macrophages contained a factor which enhances the incorporation of labelled proline to collagen and other proteins in granulation tissue slices, cells and polysomes. Simultaneously, the activity of alkaline RNase in the whole medium was decreased in comparison with the corresponding control. Polyvinylpyridine-N-oxide, PVNO, protected the macrophages against SiO2. Latex-particles and E. coli lipopolysaccharide decreased the RNase activity in the macrophage medium, but unlike SiO2 did not cause liberation of the collagen synthesis-stimulating factor. Fractionation of the medium by gel filtration chromatography showed the SiO2-pretreatment to have caused a very significant decrease in the aggregation state of RNase. The fraction from gel filtration chromatography that contained the SiO2-liberated factor stimulating collagen synthesis also contained the disaggregated RNase. There was no RNase-activity in the control sample. A homogenous protein (mol. wt. 14,300) was isolated with repeated gel filtrations from the medium of silica-treated macrophages. It increased the incorporation of 3H proline and 3H thymidine into cultured granuloma cells.
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PMID:Fractionation of connective-tissue-activating factors from the culture medium of silica-treated macrophages. 22 24

Silicosis was produced experimentally in rats by single intratracheal injections of various doses of SiO2 dust. The weight of the lungs as well as the contents of total nitrogen, collagen, nucleic acids (especially RNA), and lipids increased in accordance with the dose and the time interval. Fibrogenic stimulation in vitro was shown by the supernatant of the homogenized lung in the incorporation of proline into incubated granulation tissue or lung fibroblasts. The fibrogenic factor-activity depended more on the time interval after the injection than on the SiO2 dose. Electrophoresis of the soluble proteins in the silicotic rat lungs showed a protein of 16,000 Da, which was dependent on the time interval following SiO2 administration as well as on the dose itself, and which originated from macrophages. This protein was purified by repeated gel-filtration chromatography. It stimulated collagen synthesis in granulation-tissue cells at a concentration of about 10(-10) M in a dose-dependent way. It was acidic by amino acid composition but differed from calmodulin which also increased collagen synthesis in granulation-tissue cells in vitro. The ability of non-fractionated macrophage preparations to stimulate the incorporation of proline into collagen correlated inversely with the gross alkaline RNase activity.
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PMID:Isolation of silica-dependent protein from rat lung with special reference to development of fibrosis. 254 36

A hypothesis is presented for the action of silica-treated macrophages on protein synthesis in fibroblasts and also a method for the isolation of silica-attached materials in lung tissue. The increased protein synthesis in the fibroblasts is due, at least partly, to an increase in mRNA. Silica prevents the suppressing "macrophage effect" of macrophage-originated ribonuclease on fibroblasts. However, under certain conditions, collagen synthesis is stimulated by silica-treated macrophage preparations to such an extent that the effect cannot be explained by the inhibition of macrophage ribonuclease alone. We therefore postulate the existence of a fibrogenic factor, which is released by the macrophages. This factor has been demonstrated and can be purified from lung homogenate of SiO2-treated rats.
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PMID:Fibroblast RNA and macrophage proteins (including the fibrogenic factor) in experimental silicosis. 619 86

Antiserum against the fibrogenesis controlling macrophage RNase was produced in rabbits. It caused an inhibition of 57% in the RNase activity in vitro. A distinct dose-response relationship was observed in the inhibiting effect of the antiserum on RNase-induced 3H-thymidine incorporation into cultured granulation-tissue fibroblasts. The antifibrogenic properties of the antiserum were also tested in vivo. Rat lungs were made silicotic by intratracheal administration of SiO2. This treatment clearly increased the following parameters: wet weight, DNA, RNA, nitrogen and hydroxyproline content of the lung tissue, and protein concentration, RNase activity, and cell count of the lung lavage fluid. Also, the RNase activity of the lavage fluid cells was increased. Periodical intratracheal administration of the anti-RNase antiserum, optimally at 1:1,000 dilution, decreased the DNA, RNA, and hydroxyproline content of the lung tissue, each by about 30%. The RNase activity of lavage fluid cells was decreased by about 60%. In conclusion the antiserum had no effect on the normal lungs, but it significantly suppressed the development of silicosis.
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PMID:Antifibrogenic effects of antiserum against the macrophage RNase. 683 34