Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0034069 (pulmonary fibrosis)
7,050 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Paraquat, bipyridilium herbicide know to cause pulmonary fibrosis, was injected IP into rats. The rate of synthesis of collagen by lung minces from these and control rats was evaluated by measuring the rate of synthesis of hydroxyproline, a specific marker for collagen in lung. Synthesis was measured by incubating lung minces with radioactive proline for various amounts of time, after which proline specific activity and labeled hydroxyproline were determined. The size of the proline pool within the lung minces was significantly elevated in minces from rats that had been injected with paraquat, thus causing the specific activity of the [3H]proline precursor to be lower in these lungs than in those from control animals. Lung minces from rats administered paraquat made more collagen than did those from uninjected controls. The actual increase in rate of collagen synthesis correlated well with other independent estimates of paraquat-induced damage to the lungs.
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PMID:Paraquat-induced changes in the rate of collagen biosynthesis by rat lung explants. 73 65

Scleroderma is an uncommon complex disease. The onset is slow and the progress is chronic. The main pathophysiological changes vary; they affect blood vessels, connective tissue, collagen fibres, cause fibrin deposition and inflammatory reactions. There may be early oedema and a wide spectrum of organic involvement. Clinically, all the fibril-containing and connective tissue organs can be attacked in various degrees. The most common organ manifestations are the Raynaud's phenomenon in the arms and hands, vascular fibrosis, stiff and hard facial skin, restriction of joint movement by pericapsular hardening, calcium deposition and capsular rigidity. In the gastrointestinal tract muscle atrophy, collagen and connective tissue damage are common, especially at the cardia. Malabsorption may occur. Progressive pulmonary fibrosis leads to cor pulmonale and respiratory insufficiency. The liver, kidneys and the endocrine glands are, however, seldom involved. Therapeutic trials have been performed using many different groups of drugs: vasodilatating agents, corticosteroids, drugs found experimentally to influence connective tissue, thyroxine and a variety of anti-rheumatic agents. In the last decade best short-term clinical results have been achieved with penicillamine, some vasodilators, chlorambucil and in recent years with cyclofenil a potent anti-oestrogen, which has marked connective tissue and collagen metabolism influencing properties. Good therapeutic effects without serious side effects have been achieved.
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PMID:Scleroderma (progressive systemic sclerosis, PSS); pathophysiological, clinical and pharmacological aspects of the syndrome. 75 10

Radioimmunoassay of 5alpha, 7alpha-dihydroxy-11-keto-tetra-norprosta-1,16-dioic acid, main urinary metabolite of prostaglandin F2alpha (PGF2alpha-MUM), was performed in patients with various respiratory diseases including diffuse interstitial fibrosing pneumonitis (DIFP, fibrosing alveolitis). Twenty-four hr excretion of PGF2alpha-MUM in patients with primary lung cancer, pulmonary fibrosis secondary to collagen diseases and stationary DIFP was normal. On the other hand, 24 hr excretion of PGF2alpha-MUM in patients with carcinomatous pleuritis was high and that in patients with aggravating DIFP was markedly high. There was no correlation between serum LDH levels and 24 hr excretion of PGF2alpha-MUM.
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PMID:Radioimmunoassay of main urinary metabolite of prostaglandin F2alpha in patients with diffuse interstitial fibrosing pneumonitis (DIFP) and other respiratory diseases. 76 Feb 64

Collagens in normal human lung and in idiopathic chronic fibrosis were investigated in terms of their covalent structure and compared for possible alterations in the diseased state. Collagens were solubilized by limited digestion with pepsin under nondenaturing conditions, and after purification they, were fractionated into types I and III. Carboxymethylcellulose and agarose chromatography of both types I and III collagens, and amino acid and carbohydrate analyses of the resulting alpha-chains indicated that the alpha 1 (I), alpha 2, and alpha 1 (III) chains of normal human lung were identical with the human skin alpha-chains in all respects examined except that the normal lung chains contained higher levels of hydroxylysine. Examination of collagens obtained from the diseased lung revealed that the content of hydroxylysine of the alpha 1 (I) and the alpha 1 (III) chains appeared to be diminished as compared to the normal lung chains. The values, expressed as residues per 1,000 residues, are 7.1 and 8.3 for the alpha 1 (I) and the alpha 1 (III) chains, respectively, as compared to 10.0 and 11.1 for the alpha-chains from the normal tissue. The chromatographic properties and amino acid and carbohydrate composition of the alpha-chains from the diseased tissue were otherwise indistinguishable from those of normal lung. In addition, isolation and characterization of the CNBr peptides of alpha 1 (I), alpha 2 and alpha 1 (III) from the diseased lung revealed no significant differences from the CNBr peptides from other human tissues reported previously. Normal and diseased lungs were also digested with CNBr, and the resultant alpha 1 (I) and alpha 1 (III) peptides were separated chromatographically. The relative quantities of these peptides indicate that type III collagen constitutes 33% of the total collagen in normal human lung, with the remainder being type I, whereas in idiopathic chronic pulmonary fibrosis, the relative content of type III collagen is markedly diminished, ranging from 12 to 24% in different patients. These results indicate that an alteration in tissue collagen polymorphism as well as subtle variations in the collagen structure accompany the fibrotic process in the diseased state, and suggest that these alterations may have possible pathogenetic implications.
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PMID:Collagen polymorphism in idiopathic chronic pulmonary fibrosis. 77 26

A model of pulmonary fibrosis in rat has been developed using intratracheal administration of bleomycin (BLM) A5 (5mg/kg). Histopathologic features and total lung collagen were studied. We found that type I pneumocytes detached, basement membrane denuded and endothelia edema were the earliest changes in BLM induced pulmonary fibrosis. Serum MDA (an index of lipid peroxidation) level in rats receiving intratracheal bleomycin were increased at earlier time after bleomycin administration. Meanwhile, MDA level in the lung homogenate was elevated too. Our results indicated that the injured type I pneumocytes and endothelia caused by oxygen radicles are the fundamental damages in bleomycin-induced pulmonary fibrosis.
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PMID:[The role of oxygen radicals in bleomycin-induced pulmonary fibrosis]. 128 89

IH764-3, an effective component isolated from Salvae milliorrhize (a component of traditional Chinese medicine) was used against pulmonary fibrosis in this study. The results indicated that in the treated group, lung coefficient, surfactant, hydroxyproline content and FGF activity were significantly lower than those in the model group. Electron microscopic observation confirmed that the pulmonary ultrastructure was improved remarkably in the treated group: the proliferation of collagen-forming cells and infiltration of inflammatory cells, collagen and elastic fibers were obviously less. All the results demonstrated that IH764-3 has prophylactic and therapeutic effects on the development of pneumonitis and pulmonary fibrosis.
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PMID:[Experimental study of the effect of IH764-3, a potent component isolated from salviae milltiorrhize, against pulmonary fibrosis]. 128 93

In the present study, cytogenetic effects of Indian chrysotile asbestos in rat bone marrow cells after 290 days of intratracheal inoculation (5 mg dust/0.5 ml normal saline), when it develops massive pulmonary fibrosis, were investigated. The pulmonary fibrosis was confirmed by both histopathological studies and increased collagen content in the lung of the treated animals. In the asbestotic rats a significant increase in chromosomal aberrations was recorded and a decrease in mitotic index of bone marrow cells. The types of chromosomal aberrations in these cells were chromatid gaps and breaks. The results indicate the significant cytogenetic changes in the bone marrow cells of asbestotic rats and also suggest that these changes directly or indirectly may be one of the biological events involved in eliciting the asbestos-mediated toxic responses.
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PMID:Induction of chromosomal aberrations in bone marrow cells of asbestotic rats. 131 34

Silica-induced pulmonary fibrosis usually follows exposure to increased levels of this particulate and its retention in interstitial macrophages of the lung. It is suggested that accelerated clearance of particles from the pulmonary interstitium may ameliorate subsequent fibrosis. To test this hypothesis, one group of mice received 2-mg intratracheal (IT) silica; some particles were phagocytized and cleared during the subsequent inflammatory response, other particles were translocated across the epithelium to reach interstitial macrophages by 2 weeks. These mice later showed increased fibroblast growth, a doubling of lung collagen levels and large silicotic nodules by 16 weeks when much of the silica was still present in the lung. A second group of mice received IT silica, then 2 and 3 weeks later received IT injections of N-formyl-L-methionyl-leucyl-phenylalanine (FMLP), a leukocyte chemoattractant. Subsequently, a significant increase in inflammatory cells was seen and silica was observed mostly in phagocytes within the alveolar spaces. Few interstitial particles were found at 4 weeks, and extensive fibrosis did not develop by 16 weeks; only a few small nodules were seen and little silica was present in the lung. The results indicate that clearance of interstitial particles by a controlled inflammatory response is possible, and that removal of silica from the interstitium decreases the fibrotic response.
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PMID:Instillation of chemotactic factor to silica-injected lungs lowers interstitial particle content and reduces pulmonary fibrosis. 132 17

Pulmonary fibrosis resulting from diverse etiologies is characterized by proliferation of fibroblasts and excessive accumulation of interstitial collagen. Whether fibrosis is associated with selective expansion of fibroblast subpopulations differing in amounts or types of collagens synthesized is unknown. We have previously isolated lines and clones of normal murine lung fibroblasts based on the presence of the Thy 1 surface antigen. These subpopulations differ in morphology, growth characteristics, and display of class II major histocompatibility complex antigens (R.P. Phipps, D.P. Penney, P. Keng, H. Quill, A. Paxhia, S. Derdak, and M. E. Felch. Am. J. Respir. Cell Mol. Biol. 1: 65-74, 1989). We evaluated the amounts and types of collagen and fibronectin synthesized by Thy 1+ (Fib2-T-3+) and Thy 1- (Fib2-T-4-) lung fibroblast lines and clones. Thy 1+ fibroblast line synthesized two- to threefold more collagen and noncollagen protein than the Thy 1- line. In contrast, both the Thy 1+ and Thy 1- lines synthesized similar amounts of fibronectin. Thy 1+ and Thy 1- lines and clones expressed mRNA for alpha 1(I)-and alpha 1(III)-procollagen and synthesized both types (predominantly type I and lesser amounts of type III) of collagen, protein, and mRNA. The fibroblast clones varied significantly in total collagen and fibronectin production, with one Thy 1- clone (D3) synthesizing the largest amount of collagen but relatively little fibronectin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential collagen and fibronectin production by Thy 1+ and Thy 1- lung fibroblast subpopulations. 135 33

Pulmonary fibrosis is a well-known toxic response to bleomycin treatment. Here we demonstrate the direct effects of bleomycin on lung fibroblasts that resulted in a marked increase of collagen synthesis as compared with total noncollagen protein synthesis. Bleomycin treatment of rat lung fibroblast cultures resulted in an increase of total cellular transforming growth factor-beta (TGF-beta) mRNA and increased secretion of TGF-beta protein into the conditioned media. beta 2-Microglobulin was measured as an mRNA that did not increase with bleomycin treatment. The bleomycin-induced increase of TGF-beta mRNA was decreased by cells cultured in the presence of either cycloheximide, an inhibitor of protein synthesis, or 2-mercapto-1-(beta-4-pyridethyl) benzimidazole, an inhibitor of RNA synthesis. To assess the mechanism underlying increased steady-state mRNA levels, the nuclear fraction was isolated from bleomycin-treated cells and the TGF-beta transcripts were determined. Transcription of TGF-beta mRNA was increased 12 h after bleomycin treatment, whereas the transcription of type I procollagen, type III procollagen, and beta-actin mRNAs were increased after 48 h of bleomycin treatment. beta 2-Microglobulin mRNA synthesis was not increased within this time frame. These results suggest bleomycin regulation of TGF-beta at both the mRNA and protein levels. Rats lung fibroblasts were separated by cell sorting into two subpopulations. One population of fibroblasts demonstrated increased procollagen type I mRNAs, whereas fibroblasts in the other population had increased procollagen type III mRNA. Following bleomycin treatment, TGF-beta mRNA was shown to be located more prominently in those fibroblasts that contain primarily collagen type I mRNAs.
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PMID:Bleomycin regulation of transforming growth factor-beta mRNA in rat lung fibroblasts. 137 88


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