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Query: UMLS:C0034069 (
pulmonary fibrosis
)
7,050
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have characterized the messenger RNAs (mRNAs) coding for procollagen alpha 1(I), elastin, fibronectin, and actin in the lungs of Syrian golden hamsters by Northern blot analyses. While elastin, fibronectin, and beta-actin were each coded for by a single mRNA species of 4.1 kilobases (kb), 9.1 kb, and 2.1 kb in size, respectively, we identified a major (5.4 kb) and a minor (6.5 kb) procollagen alpha 1(I) mRNA species in the hamster lungs. The mRNAs for the three extracellular matrix proteins showed increased accumulation followed by steady decline in the bleomycin-treated lungs. There were significant differences among the three mRNAs in the relative increase and the time of maximum accumulation. After reaching the peak levels between 2-3 wk posttreatment, the levels of procollagen alpha 1(I) and elastin mRNAs declined to near normal values around the fourth week. In contrast, the accumulation of fibronectin mRNA was maximum in the first week after bleomycin treatment. The procollagen alpha 1(I) mRNA accumulated most dramatically (sevenfold above the levels in the untreated animals) compared with a five-fold increase in mRNA coding for fibronectin.
Elastin
mRNA increased approximately twofold above the control values. Nuclear runoff transcription experiments demonstrated a selective increase in the rates of transcription of genes coding for procollagen alpha 1(I), fibronectin, and elastin; the extent of transcriptional stimulation of procollagen alpha 1(I) and fibronectin genes was significantly greater than that of elastin. Since the amount of actin mRNA, as well as the rate of transcription of actin gene(s), varied only slightly after bleomycin treatment, we conclude that the metabolism of mRNAs coding for extracellular matrix proteins may be preferentially perturbed during
pulmonary fibrosis
.
...
PMID:Profiles of steady state levels of messenger RNAs coding for type I procollagen, elastin, and fibronectin in hamster lungs undergoing bleomycin-induced interstitial pulmonary fibrosis. 241 24
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.
...
PMID:Increased synthesis of elastin in amiodarone-induced pulmonary fibrosis. 310 60
Elastin
is a chief component of lung interstitium, and it is central to lung morphology and function. Efforts to understand the pathogenesis of
pulmonary fibrosis
have focused primarily upon collagen turnover in the lung; few studies have focused on elastin. In this study, we examined steady-state elastin mRNA levels after lung injury in the mouse induced by (1) butylated hydroxytoluene (BHT) which causes acute lung injury with recovery, (2) BHT + 70% O2 (fibrosis), or (3) 70% O2. Total lung elastin mRNA increased 70-80-fold on d10-14 after BHT/O2, but was unchanged after BHT or O2 alone. In situ hybridization studies localized elastin mRNA to cells in the muscularis of conducting airways and to scattered interstitial cells in fibrotic foci. Elastic fiber morphology was markedly distorted after BHT/O2. Thus, marked upregulation of elastin gene expression is correlated with the histopathology of fibrotic lung disease.
...
PMID:Elastin gene expression is upregulated during pulmonary fibrosis. 1076 39
Clinical studies have associated increased transforming growth factor (TGF)-alpha and EGF receptor with lung remodeling in diseases including bronchopulmonary dysplasia (BPD). BPD is characterized by disrupted alveolar and vascular morphogenesis, inflammation, and remodeling. To determine whether transient increases in TGF-alpha are sufficient to disrupt postnatal lung morphogenesis, we utilized neonatal transgenic mice conditionally expressing TGF-alpha. Expression of TGF-alpha from postnatal days 3 to 5 disrupted postnatal alveologenesis, causing permanent enlargement of distal air spaces in neonatal and adult mice. Lung volume-to-body weight ratios and lung compliance were increased in adult TGF-alpha transgenic mice, whereas tissue and airway elastance were reduced.
Elastin
fibers in the alveolar septae were fragmented and disorganized. Pulmonary vascular morphogenesis was abnormal in TGF-alpha mice, with attenuated and occasionally tortuous arterial branching. The ratios of right ventricle weight to left ventricle plus septal weight were increased in TGF-alpha mice, indicating pulmonary hypertension. Electron microscopy showed gaps in the capillary endothelium and extravasation of erythrocytes into the alveolar space of TGF-alpha mice. Hemorrhage and inflammatory cells were seen in distal air spaces at 1 mo of age. In adult TGF-alpha mice, alveolar remodeling, nodules, proteinaceous deposits, and inflammatory cells were seen. Immunostaining for pro-surfactant protein C showed that type II cells were abundant in the nodules, as well as neutrophils and macrophages. Trichrome staining showed that
pulmonary fibrosis
was minimal, apart from areas of nodular remodeling in adult TGF-alpha mice. Transient induction of TGF-alpha during early alveologenesis permanently disrupted lung structure and function and caused chronic lung disease.
...
PMID:Transient induction of TGF-alpha disrupts lung morphogenesis, causing pulmonary disease in adulthood. 1535 62
Current pharmacotherapy of chronic obstructive pulmonary disease (COPD) aims at reducing respiratory symptoms and exacerbation frequency. Effective therapies to reduce disease progression, however, are still lacking. Furthermore, COPD medications showed less favorable effects in emphysema than in other COPD phenotypes.
Elastin
fibers are reduced and disrupted, whereas collagen levels are increased in emphysematous lungs. Protease/antiprotease imbalance has historically been regarded as the sole cause of emphysema. However, it is nowadays appreciated that emphysema may also be provoked by perturbations in the sequential repair steps following elastolysis. Essentiality of fibulin-5 and lysyl oxidase-like 1 in the elastin restoration process is discussed, and it is argued that copper deficiency is a plausible reason for failing elastin repair in emphysema patients. Since copper-dependent lysyl oxidases crosslink elastin as well as collagen fibers, copper supplementation stimulates accumulation of both proteins in the extracellular matrix. Restoration of abnormal elastin fibers in emphysematous lungs is favorable, whereas stimulating
pulmonary fibrosis
formation by further increasing collagen concentrations and organization is detrimental. Heparin inhibits collagen crosslinking while stimulating elastin repair and might therefore be the ideal companion of copper for emphysema patients. Efficacy and safety considerations may lead to a preference of pulmonary administration of copper-heparin over systemic administration.
...
PMID:Copper-Heparin Inhalation Therapy To Repair Emphysema: A Scientific Rationale. 3206 1
