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)

Cells that possess the morphology and collagen synthetic capacity of fibroblasts were recovered by bronchofiberscopic subsegmental pulmonary lavage from patients with pulmonary fibrosis, from patients with miscellaneous nonfibrotic lung diseases and from healthy volunteers. Lavage cells were placed in tissue culture, observed for 2 to 6 weeks, and compared with human lavage pulmonary alveolar macrophages (PAM), WI-38 and IMR-90 human fetal lung fibroblasts, and adult lung tissue fibroblasts (CLAC-76). Lavage fibroblsts (LF) were identified as proliferating clones in monolayers of nonproliferating PAM and could be subcultured repeatedly. Fibroglasts were propagated from 28 of the 92 lavage specimens cultured. Time-lapse cinematography showed similar distributions of interdivision times for LF, CLAC-76 and WI-38, but the LF and CLAC-76 lines had slower mean migration rates than the fetal line. Light, scanning, and transmission electron microscopy of LF showed attenuated spindle-shaped cells with interdigitating filopodia, flat surfaces with few microvilli, and containing numerous cytoplasmic polyribosomes and rough endoplasmic reticulum. Extracellular fibrils with the appearance of collagen were seen. Collagen synthesis by LF was measured as 3.9% to 4.9% of the cell-associated protein sensitive to bacterial collagenase. This protein was rich in hydroxyproline, and had an electrophoretic migration pattern identical to known collagen. LF did not contain lysozyme although this enzyme was abundant in fresh and 1-week cultured PAM. Thus LF were similar to human fetal and adult lung tissue fibroblasts in their morphology, tissue culture characteristics, constitutive enzymes and collagen synthetic properties but were distinctly different from PAM.
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PMID:Isolation and characterization of fibroblasts obtained by pulmonary lavage of human subjects. 51 Dec 8

Several autoantibodies are found specifically in myositis. Mostly this is myositis in the context of a connective tissue disease with associated features such as Raynaud's phenomenon, arthralgias, pulmonary fibrosis or scleroderma. The patterns of disease amount to overlap syndromes or subsets in which one can often predict the presence of a particular type of autoantibody. There are HLA associations, particularly with DQ alleles, related more closely to the antibody than to myositis overall. There is also a suggestion of seasonal and geographical variation within the United States distinguishing the advent of particular autoantibodies with the myositis. The myositis antigens are mainly ribonucleoprotein particles (RNA-protein complexes) functioning in RNA processing, protein translation and protein translocation into the endoplasmic reticulum. Within the cell the antigens are not accessible to antibody, with the possible exception that antibody to U(1)RNP may enter cells. If antibodies are to have a role in pathogenesis it is more likely to be through binding to cell membranes (there to activate complement or mediate T lymphocyte activity) or through immune complex mechanisms. The myositis antigen Ku has been detected on cell membranes, but generally in myositis there is scant deposition of immunoglobulin or complement in muscle except within small blood vessels. If autoantibodies really have little part to play in the pathogenesis of myositis their existence must relate to the earlier events of aetiology, like fingerprints on fragments of a terrorist's bomb.
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PMID:Autoantibodies in myositis. 751 8

The role of pulmonary fibroblasts (PFBs) in early adult respiratory distress syndrome is poorly understood. To investigate PFB cellular function in acute lung injury, New Zealand rabbits (2 to 3 kg) were given either three daily doses of phorbol myristate acetate (PMA; 65 micrograms/kg, IV), a potent stimulator of oxygen radical formation, or saline (control). On day 4, the lungs were harvested, subjected to enzymatic digestion, and PFBs isolated via serial subculture. Proliferation was assessed via 6-hour pulsed [3H]thymidine incorporation and by creating 5-day growth curves. Confluent PFB cultures were assessed for collagen production and total protein production, as well as interleukin (IL)-1 alpha secretion. Qualitative comparisons using transmission electron micrography were also made. There were no differences between PFBs harvested from control versus PMA-treated animals in terms of growth rates, total protein, and IL-1 alpha production. However, there was a significant difference in collagen production, with the PMA-treated animals' PFBs producing 35% more collagen than controls. Transmission electron micrography revealed PMA fibroblasts to be smaller (two to three times), have more dark staining granules, and have hypertrophied smooth endoplasmic reticulum--all consistent with increased metabolic activity. This suggests that pulmonary fibrosis, a late development in adult respiratory distress syndrome, may be triggered during the acute phase of lung injury. The increase in collagen synthesis is not related to PFB proliferation or the secretion of IL-1 alpha.
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PMID:Pulmonary fibroblast function in an acute lung injury model. 763 11

Pulmonary fibrosis was elicited in mice or rats by the intratracheal instillation of bleomycin or silica. Daily injections of heparin significantly reduced the collagen deposition in bleomycin, but not in silica, injected mice, as evaluated by the lung hydroxyproline content on day 15 after instillation. Heparin also reduced the bleomycin-induced morbidity and mortality. Study of the broncho-alveolar lavage fluid (BAL) detected no significant change in the number of leucocytes or the amount of protein in heparin treated mice. Histologies of bleomycin instilled mice suggested that heparin did reduce the alveolar remodelling but not the alveolitis, evidenced by leucocytic infiltration. As detected by electron microscopy (EM), bleomycin increased the number of leucocytes and platelets within the alveolar capillaries but this was not significant ly reduced by heparin. The phenotype of the interstitial cell involved in these two types of pulmonary fibrosis was investigated by immunohistochemistry and EM. While in bleomycin injected animals the interstitial cells had the phenotype of an actin (alpha-actin in the rat) and lipid containing interstitial cell, with a poorly developed RE, in silica injected animals in contrast, the interstitial cells were without cytoplasmic actin or lipid but with a markedly developed endoplasmic reticulum (ER). Thus bleomycin and silica induced the growth of two different types of interstitial cells, the myofibroblast and the regular fibroblast, which might be a reason why heparin selectively inhibits bleomycin but not silica-induced fibrosis.
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PMID:Heparin attenuates bleomycin but not silica-induced pulmonary fibrosis in mice: possible relationship with involvement of myofibroblasts in bleomycin, and fibroblasts in silica-induced fibrosis. 894 33

Epimorphin was originally identified as a mesenchymal, cell surface-associated protein that modulates epithelial morphogenesis in embryonic organs, whereas pulmonary fibrosis is a process of wound healing, which in part mimics the process of fetal lung development. We investigated the temporal and spatial changes in the distribution of epimorphin protein and expression of its messenger RNA (mRNA) in bleomycin-induced pulmonary fibrosis in mice. Immunohistochemical analysis showed that low levels of epimorphin were present in the bronchiolar, alveolar, and vascular walls of normal adult lungs. However, from Day 7 until Day 28 after bleomycin treatment, increasing levels of epimorphin immunoreactivity were detected in the mesenchymal cells and in the extracellular matrix within intra-alveolar fibrotic lesions. Moreover, Northern blots showed corresponding increases in epimorphin mRNA expression. Re-epithelialization of epimorphin-rich intra-alveolar fibrosis was complete by Day 28 after bleomycin, and by Day 56, epimorphin immunoreactivity had declined. In situ hybridization and confocal microscopic studies confirmed expression of epimorphin mRNA by mesenchymal cells situated within early fibrotic lesions, whereas immunoelectron microscopy localized the epimorphin to the endoplasmic reticulum of the mesenchymal cells and to the basement membrane and collagen fibrils in the area. These results suggest that epimorphin may contribute to the remodeling of pulmonary fibrosis via epithelial-mesenchymal interactions.
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PMID:Increased expression of epimorphin in bleomycin-induced pulmonary fibrosis in mice. 1091 82

Hsp47 was originally discovered as a cell surface collagen binding protein, colligin, and was later shown to be an endoplasmic reticulum (ER) resident protein with collagen binding properties in chick fibroblasts. Hsp47 has been termed J6, gp46, CB48 and CBP2 in various other organisms and has been mapped to human chromosome 11q13.5 a known "hot spot" in a number of human cancers. Hsp47 has been shown to be constitutively expressed with collagens; it is heat inducible and binds to both helical and non-helical forms of collagens. Hsp47 binds closely to procollagen in the ER, but dissociates from it in the cis-Golgi to allow fibril formation. Hsp47 is over-expressed in many fibrotic diseases including: glomerulosclerosis, pulmonary fibrosis, liver cirrhosis, cicatricial pemphigoid, epidermolysis bullosa acquista and keloids. Hsp47 is associated with fibrosis following myocardial infarction and has been localized in artherosclerotic arteries. Among a number of rheumatoid conditions, Hsp47 manifests properties of an autoantigen and in some cancers appears to be a biomarker. The unique properties of Hsp47 in modulating collagen production and its location to the cell membrane in many forms of cancer have designated Hsp47 as a potential biomarker and/or therapeutic target for a number of conditions and diseases.
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PMID:Hsp47 a novel collagen binding serpin chaperone, autoantigen and therapeutic target. 1557 54

AFKBP65 (65-kDa FK506-binding protein) is an endoplasmic reticulum (ER)-localized peptidyl-prolyl cis-trans isomerase predicted to play a role in the folding and trafficking of secretory proteins. In previous studies, we have shown that FKBP65 is developmentally regulated and associates with the extracellular matrix protein, tropoelastin, during its maturation and transport through the ER. In this study, we show that FKBP65 is expressed in the lung with the same developmental pattern as tropoelastin and other matrix proteins. To test the hypothesis that FKBP65 is upregulated at times when extracellular matrix proteins are being actively synthesized and assembled, adult mice were treated with bleomycin to cause reinitiation of matrix protein production during the ensuing development of pulmonary fibrosis. After bleomycin instillation, FKBP65 expression was reactivated in the lung with a pattern similar to that observed for tropoelastin and type I collagen. Using human lung fibroblast cultures, we showed that FKBP65 does not undergo the unfolded protein response, a response associated with an upregulation of resident ER proteins that occurs after increased ER stress. When fibroblasts were treated with transforming growth factor (TGF)-beta1, which is upregulated during the development of pulmonary fibrosis and known to induce matrix production, FKBP65 expression and synthesis was also increased. Similar to type I collagen and tropoelastin, this response was completely inhibited in a dose-dependent manner by GGTI-298, a geranylgeranyl transferase I inhibitor. Treatment of fibroblasts with an inhibitor of ribonucleic acid (RNA) polymerase II after TGF-beta1 treatment showed that the effect of TGF-beta1 was not because of increased stabilization of the FKBP65 messenger RNA. In summary, we have shown that FKBP65 is highly expressed in lung development, downregulated in the adult, and can be reactivated in a coordinated manner with extracellular matrix proteins after lung injury. The expression pattern of FKBP65, which is atypical for general ER foldases, suggests that FKBP65 has a distinct set of developmentally regulated protein ligands. The response to injury, which may be in part a direct response to TGF-beta1, assures the presence of FKBP65 in the ER of cells actively producing components of the extracellular matrix.
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PMID:Developmental regulation and coordinate reexpression of FKBP65 with extracellular matrix proteins after lung injury suggest a specialized function for this endoplasmic reticulum immunophilin. 1633 83

Asbestos causes pulmonary fibrosis (asbestosis) and malignancies (bronchogenic lung cancer and mesothelioma) by mechanisms that are not fully elucidated. Accumulating evidence show that alveolar epithelial cell (AEC) apoptosis is a crucial initiating and perpetuating event in the development of pulmonary fibrosis following exposure to a wide variety of noxious stimuli, including asbestos. We review the important molecular mechanisms underlying asbestos-induced AEC apoptosis. Specifically, we focus on the role of asbestos in augmenting AEC apoptosis by the mitochondria- and p53-regulated death pathways that result from the production of iron-derived reactive oxygen species (ROS) and DNA damage. We summarize emerging evidence implicating the endoplasmic reticulum (ER) stress response in AEC apoptosis in patients with idiopathic pulmonary fibrosis (IPF), a disease with similarities to asbestosis. Finally, we discuss a recent finding that a mitochondrial oxidative DNA repair enzyme (8-oxoguanine DNA glycosylase; Ogg1) acts as a mitochondrial aconitase chaperone protein to prevent oxidant (asbestos and H(2)O(2))-induced AEC mitochondrial dysfunction and intrinsic apoptosis. The coupling of mitochondrial Ogg1 to mitochondrial aconitase is a novel mechanism linking metabolism to mitochondrial DNA that may be important in the pathophysiologic events resulting in oxidant-induced toxicity as seen in tumors, aging, and respiratory disorders (e.g. asbestosis, IPF). Collectively, these studies are illuminating the molecular basis of AEC apoptosis following asbestos exposure that may prove useful for developing novel therapeutic strategies. Importantly, the asbestos paradigm is elucidating pathophysiologic insights into other more common pulmonary diseases, such as IPF and lung cancer, for which better therapy is required.
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PMID:Molecular mechanisms of asbestos-induced lung epithelial cell apoptosis. 2038 Aug 27

Rare heterozygous mutations in the gene encoding surfactant protein A2 (SP-A2, SFTPA2) are associated with adult-onset pulmonary fibrosis and adenocarcinoma of the lung. We have previously shown that two recombinant SP-A2 mutant proteins (G231V and F198S) remain within the endoplasmic reticulum (ER) of A549 cells and are not secreted into the culture medium. The pathogenic mechanism of the mutant proteins is unknown. Here we analyze all common and rare variants of the surfactant protein A2, SP-A2, in both A549 cells and in primary type II alveolar epithelial cells. We show that, in contrast with all other SP-A2 variants, the mutant proteins are not secreted into the medium with wild-type SP-A isoforms, form fewer intracellular dimer and trimer oligomers, are partially insoluble in 0.5% Nonidet P-40 lysates of transfected A549 cells, and demonstrate greater protein instability in chymotrypsin proteolytic digestions. Both the G231V and F198S mutant SP-A2 proteins are destroyed via the ER-association degradation pathway. Expression of the mutant proteins increases the transcription of a BiP-reporter construct, expression of BiP protein, and production of an ER stress-induced XBP-1 spliced product. Human bronchoalveolar wash samples from individuals who are heterozygous for the G231V mutation have similar levels of total SP-A as normal family members, which suggests that the mechanism of disease does not involve an overt lack of secreted SP-A but instead involves an increase in ER stress of resident type II alveolar epithelial cells.
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PMID:Surfactant protein A2 mutations associated with pulmonary fibrosis lead to protein instability and endoplasmic reticulum stress. 2046 29

Oxidative stress plays a central role in the pathogenesis of diverse chronic inflammatory disorders including diabetic complications, cardiovascular disease, aging, neurodegenerative disease, autoimmune disorders, and pulmonary fibrosis. Protein misfolding can lead to chronic endoplasmic reticulum (ER) stress which can exacerbate oxidative stress. This can trigger apoptotic cascades resulting in chronic inflammatory disorders. Despite intense interest in origins and magnitude of oxidative stress, ability to quantify oxidants has been limited because they are short lived. We have developed quantitative mass spectrometry (MS)-based analytical strategies to analyze stable end products of protein oxidation. These molecules provide quantitative and mechanistic assessment of degree of oxidative stress in cell cultures, tissues, and biofluids of animal models of disease and human samples. Our studies support the hypothesis that unique reactive intermediates generated in localized microenvironments of vulnerable tissues promote end-organ damage. The ability to quantify these changes and assess response to therapies will be pivotal in understanding disease mechanisms and monitoring efficacy of therapy.
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PMID:Quantitative analysis of amino Acid oxidation markers by tandem mass spectrometry. 2132 95


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