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)

Amiodarone is a Class III antiarrhythmic agent that has been implicated as a cause of human pulmonary fibrosis. Pulmonary fibrosis is associated with increased levels of connective tissue proteins such as collagen and elastin. The purpose of this investigation was to determine whether elastin synthesis would be altered by in vitro amiodarone administration. Primary hamster lung cell cultures were utilized. Cultures were treated with 2, 10, and 20 micrograms/ml amiodarone. Following treatment, elastin synthesis was monitored by a biochemical tracer assay based on the presence of the cross-linking amino acids: desmosine/isodesmosine. These cross-links are found only in elastin. Addition of [14C] lysine to cultures results in uptake of the radiolabel into the cross-links. Cross-links were isolated and identified using chromatography and electrophoresis. At all doses of amiodarone, elastin synthesis was seen to increase above control levels. Light and electron microscopy confirmed the presence of an extracellular matrix. The morphologic studies also revealed the presence of cytoplasmic inclusion bodies and vacuoles that are often associated with cationic, amphiphilic drugs such as amiodarone.
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PMID:Effects of amiodarone on elastin biosynthesis in primary hamster lung cell cultures. 200 41

A single intratracheal injection of 50 mg crystalline silica (quartz) into rats produces silicosis. This animal model may be used to study collagen metabolism during the early, middle, and late phases of lung injury, corresponding respectively to the stages of lung injury, development of discrete granulomas, and development of mature silicotic nodules. The early phase is characterized by a rapid increase in the rate of synthesis of lung collagen (within one week of instillation) and increased deposition of excess lung collagen (significant increases within two weeks of instillation). Later phases are characterized by a continuing increase in deposition of excess lung collagen for at least one year after instillation. Silica-induced fibrosis is unique among all the animal models (and in most human fibrotic diseases) thus far examined, in that the excess collagen deposited in the lung contains normal ratios of the two major collagen types of the lung: types I and III. This collagen is nonetheless biochemically different from normal lung collagen. There are reproducible and characteristic differences in the intermolecular cross-links of the collagen in lungs from rats injected with silica. Within one month of silica instillation (the earliest time point examined thus far), an increased hydroxylysine content of collagen can be appreciated. The reducible dysfunctional cross-links are also more likely to be derived from hydroxylysine (i.e. the ratio of dihydroxylated to monohydroxylated cross-links increases). Within four months of silica instillation (and increasingly thereafter), increased amounts of the mature trifunctional cross-link hydroxypyridinium (derived from three residues of hydroxylysine) can also be appreciated, seemingly paralleling the evolution of mature silicotic nodules in these lungs. These changes in cross-linking of lung collagen seem to be common to all the animal models of pulmonary fibrosis examined, and are also consistent with changes occurring in human fibrotic lungs. Preliminary observations suggest that the locus of cross-linking remains the same: hydroxylysine replaces lysine in the primary structure of a specific collagen alpha chain to form the altered cross-links. Thus, there may be molecular markers for the collagen of fibrosis in diseased lungs.
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PMID:Effects of silica on lung collagen. 242 84

Rats were injected intraperitoneally with 1 mCi (each) of [3H]lysine at Day 11 of neonatal life to label their lung collagen. Five weeks later, half of the animals were given an intratracheal injection of 1.5 U of bleomycin sulfate via a tracheostomy; control animals received saline intratracheally by the same technique. Age-matched groups of control and bleomycin-treated rats were killed, and their lung collagen was analyzed at zero (control animals only), 1, 2, 4, 6, and 10 wk after bleomycin administration, a time course appropriate for development of pulmonary fibrosis in this animal model. We measured radioactivity in hydroxylysine and in the difunctional collagen crosslinks hydroxylysinonorleucine and dihydroxylysinonorleucine at each time point. No evidence of breakdown of this pool of mature, preformed collagen was observed in lungs of either the control or the bleomycin-treated rats. We also measured the total lung content of hydroxypyridinium, a trifunctional collagen crosslink, by its intrinsic fluorescence. There was no evidence of collagen degradation in lungs of either group of rats by this criterion either. We conclude that there is no biochemically detectable turnover of mature lung collagen, defined as that pool of lung collagen that is obligatorily extracellular (i.e., crosslinked and containing labeled hydroxylysine from an injection of precursor 5 to 15 wk earlier), in either normal rat lungs or lungs of rats made fibrotic with bleomycin. Statistical analysis of the data suggests that our methodology was sensitive and precise enough to have detected turnover of less than 0.5% of lung collagen per day, some 20-fold less than estimates of lung collagen turnover that have been suggested to be occurring in vivo by others using different techniques and presumably studying different pools of lung collagen.
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PMID:Biosynthesis of collagen crosslinks. III. In vivo labeling and stability of lung collagen in rats with bleomycin-induced pulmonary fibrosis. 248 79

In serum of 530 patients with various lung diseases and in 70 healthy control subjects, kininase I (E.C. 3.4.17.3) and kininase II (E.C. 3.4.15.1) were measured spectrophotometrically using hippuryl-L-arginine for estimation of kininase Ia (KIa), hippuryl-L-lysine for kininase Ib (KIb) and hippuryl-L-histidyl-L-leucine for kininase II (KII). KIa and KIb were significantly elevated (p less than 0.02) in lung cancer and sarcoidosis, compared to tuberculosis and healthy controls. There was an increase (p less than 0.05) in lung cancer in relation to sarcoidosis, chronic obstructive bronchitis, tuberculosis, pulmonary fibrosis and healthy control subjects. KII was significantly elevated in sarcoidosis (p less than 0.0001). According to the histological types of lung cancer, no differences of KIa, KIb and KII have been found. The ratio KIa/KIb X KII was 2.3 in lung cancer and 6.7 in the group with sarcoidosis. These results show that the determination of kininases can be used for diagnosis of lung diseases.
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PMID:Kininase I and II activities in serum of patients with lung diseases. 302 81

Natural and synthetic glucocorticoids are known to effect collagen metabolism. This influence is responsible for several side-effects of a long term therapy with glucocorticoids. Molecular mechanisms of these phenomena are complex, and are only partially elucidated. It has been found that glucocorticoids decrease amount of mRNA coding procollagen chains. Posttranslational modifications including hydroxylation of proline and lysine residues and glycosylation of hydroxylysine residues in procollagen are depressed by glucocorticoids. This is caused by depressed activity of the specific enzymes of intracellular stages of collagen biosynthesis. Extracellular maturation of collagen is affected by steroids but changes reported depend upon rate of the collagen turnover. The effect of glucocorticoids on collagen degradation is a subject of controversy; there are a few data that the hormones decrease activity of collagenolytic enzymes. Possible indirect mechanisms of effect of glucocorticoids on the collagen metabolism include modulatory role of these hormones in inflammatory cell activity as well as a release of various humor mediators. Pathophysiological aspect of hormonal regulation of collagen metabolism by glucocorticoids in hepatic and pulmonary fibrosis as well as keloids are also reviewed.
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PMID:Hormonal control of collagen metabolism. Part II. 306 59

Both synthesis and total content of lung elastin were measured after induction of interstitial pulmonary fibrosis in hamsters by a single intratracheal insufflation of amiodarone. Elastin synthesis, as measured by 14C-lysine incorporation into desmosine and isodesmosine, was significantly elevated (P less than 0.05) above control values for a 3-week interval after induction of lung injury. Total lung elastin content in the amiodarone-treated animals was 32% greater than in controls (P less than 0.05) 2 weeks after insufflation of the agent. Furthermore, the time course of elastin synthesis in this experimental model was similar to that observed in bleomycin-induced pulmonary fibrosis in hamsters. Increases in elastin may therefore be a common feature of interstitial pulmonary fibrosis and may contribute to the altered lung mechanics seen in this disease.
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PMID:Increased synthesis of elastin in amiodarone-induced pulmonary fibrosis. 310 60

Cross-linked elastin synthesis was measured in the intratracheal bleomycin model of interstitial pulmonary fibrosis by incorporation of 14C-lysine into the elastin-specific crosslinks, desmosine and isodesmosine. Detection of the labeled crosslinks was facilitated by development of a highly sensitive assay utilizing thin-layer electrophoresis. The results indicate that crosslinked elastin synthesis is significantly elevated from controls (p less than 0.05) at 1 to 3 weeks after exposure to bleomycin and returns to normal by 5 weeks. The increases in labeled elastin synthesis are not directly related to changes in either total lung protein synthesis or the pool size of the 14C-lysine. In comparison with collagen and glycosaminoglycan synthesis in this model of lung injury, maximal increases in cross-linked elastin formation occur later, but overlap with the elevated synthesis of these other connective tissue components. The marked increase from normal in cross-linked elastin synthesis in this model suggests that this tissue component is an important part of the fibrotic response of the pulmonary parenchyma and may play a role in the observed alterations in lung structure and function.
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PMID:Measurement of cross-linked elastin synthesis in bleomycin-induced pulmonary fibrosis using a highly sensitive assay for desmosine and isodesmosine. 619 45

The antifibrotic effects of an interferon inducer, polyinosinic-polycytidylic acid complexed with poly-L-lysine (poly ICLC), was evaluated in a bleomycin-hamster model of pulmonary fibrosis. Hamsters received three consecutive intratracheal doses of bleomycin (2.5, 2.0, and 1.5 U/kg/5 ml) or saline at weekly intervals. Poly ICLC at three doses (0.5, 1.0, and 1.5 mg/kg body weight) or saline was injected intraperitoneally by daily and semiweekly regimens for four weeks, and animals were sacrificed at five weeks. In both the daily and semiweekly poly ICLC regimens, hamsters receiving bleomycin plus poly ICLC demonstrated increased mortality and decreased weight gain compared to the vehicle and bleomycin control groups. The groups receiving bleomycin plus daily poly ICLC demonstrated poly ICLC-dose related effects for weight changes, lung hydroxyproline and lung prolyl hydroxylase activity. Depending on the poly ICLC dose, bleomycin plus daily poly ICLC produced significantly decreased hydroxyproline or significantly increased hydroxyproline and prolyl hydroxylase activity compared to the bleomycin control group. In contrast, the groups receiving bleomycin plus semiweekly poly ICLC did not demonstrate poly ICLC-dose related effects or significant differences from the bleomycin control group for any of the biochemical assays performed. The results of this study indicate that, depending on dose and regimen, poly ICLC can reduce collagen accumulation or produce a synergistic toxicity when administered with multiple doses of bleomycin. The toxic effects may restrict the therapeutic potential of poly ICLC in combination with bleomycin for anticancer therapy.
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PMID:Dose and regimen effects of poly ICLC, an interferon inducer, in a multi-dose bleomycin model of interstitial pulmonary fibrosis. 752 60

Inhibitors of collagen such as cis-4-hydroxy-L-proline (cHyp) may ameliorate bleomycin (bleo)-induced pulmonary fibrosis. An alternating polymer of poly(ethylene glycol) (PEG)-lysine (PEG-Lys) with cHyp attached as a pendant side chain was prepared for intratracheal delivery with bioinactive trans-Hyp (tHyp) polymer as control. To test whether the cHyp polymer has prolonged lung retention and sustained antifibrotic activity, we first instilled 3H- and 14C-labeled cHyp polymer in normal rats. Lung retention was 86 +/- 9% at 6 h and 29 +/- 3% at 7 d (n = 5). Next, rats were instilled intratracheally with either saline (sal) or 1.2 U bleo, and the following treatment groups were studied: Bleo/sal; Bleo/cHyp polymer; Bleo/tHyp polymer; and Bleo/PEG-Lys + cHyp. The dose of the test agents was 150 mg/kg polymer containing 8.5 mg/kg cHyp or tHyp instilled intratracheally at 7 and 14 d after bleo. At 21 d, hydroxyproline content (mg/lung) was: Control, 1.8 +/- 0.1; Bleo/sal 4.0 +/- 0.1*; Bleo/cHyp polymer, 2.8 +/- 0.3*+; Bleo/tHyp polymer, 4.4 +/- 0.2*; and Bleo/PEG-Lys + cHyp, 4.0 +/- 0.1* (*p < 0.05 versus Control; +p < 0.05 versus Bleo/sal; n = 5/group). The cHyp polymer also reduced lung total protein content, but the decrease was not significant. The dose required to produce 50% inhibition of lung collagen was approximately 700-fold less than monomeric cHyp. Thus, the cHyp polymer is a potent, long-acting antifibrotic agent which may be useful in treating lung fibrosis.
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PMID:Polymer of proline analogue with sustained antifibrotic activity in lung fibrosis. 910 84

Tissue transglutaminase is a calcium-dependent enzyme that catalyzes the cross-linking of polypeptide chains, including those of extracellular matrix (ECM) proteins, through the formation of epsilon-(gamma-glutamyl) lysine bonds. This crosslinking leads to the formation of protein polymers that are highly resistant to degradation. As a consequence, the enzyme has been implicated in the deposition of ECM protein in fibrotic diseases such as pulmonary fibrosis and atherosclerosis. In this study, we have investigated the involvement of tissue transglutaminase in the development of kidney fibrosis in adult male Wistar rats submitted to subtotal nephrectomy (SNx). Groups of six rats were killed on days 7, 30, 90, and 120 after SNx. As previously described, these rats developed progressive glomerulosclerosis and tubulo-interstitial fibrosis. The tissue level of epsilon-(gamma-glutamyl) lysine cross-link (as determined by exhaustive proteolytic digestion followed by cation exchange chromatography) increased from 3.47+/- 0.94 (mean+/-SEM) in controls to 13.24+/-1.43 nmol/g protein 90 d after SNx, P </= 0.01. Levels of epsilon-(gamma-glutamyl) lysine cross-link correlated well with the renal fibrosis score throughout the 120 observation days (r = 0.78, P </= 0.01). Tissue homogenates showed no significant change in overall transglutaminase activity (14C putrescine incorporation assay) unless adjusted for the loss of viable tubule cells, when an increase from 5.77+/-0.35 to 13.93+/-4.21 U/mg DNA in cytosolic tissue transglutaminase activity was seen. This increase was supported by Western blot analysis, showing a parallel increase in renal tissue transglutaminase content. Immunohistochemistry demonstrated that this large increase in epsilon-(gamma-glutamyl) lysine cross-link and tissue transglutaminase took place predominantly in the cytoplasm of tubular cells, while immunofluorescence also showed low levels of the epsilon-(gamma-glutamyl) lysine cross-link in the extracellular renal interstitial space. The number of cells showing increases in tissue transglutaminase and its cross-link product, epsilon-(gamma-glutamyl) lysine appeared greater than those showing signs of typical apoptosis as determined by in situ end-labeling. This observed association between tissue transglutaminase, epsilon-(gamma-glutamyl) lysine cross-link, and renal tubulointerstitial scarring in rats submitted to SNx suggests that tissue transglutaminase may play an important role in the development of experimental renal fibrosis and the associated loss of tubule integrity.
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PMID:The role of transglutaminase in the rat subtotal nephrectomy model of renal fibrosis. 918 19


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