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)

Interleukin (IL)-10 has been shown to reduce many inflammatory reactions. We investigated the in vivo effects of IL-10 on a bleomycin-induced lung injury model. Hemagglutinating virus of Japan (HVJ)-liposomes containing a human IL-10 expression vector (hIL10-HVJ) or a balanced salt solution as a control (Cont-HVJ) was intraperitoneally injected into mice on day -3. This was followed by intratracheal instillation of bleomycin (0.8 mg/kg) on day 0. Myeloperoxidase activity of bronchoalveolar lavage fluid and tumor necrosis factor-alpha mRNA expression in bronchoalveolar lavage fluid cells on day 7 and hydroxyproline content of the whole lung on day 21 were inhibited significantly by hIL10-HVJ treatment. However, Cont-HVJ treatment could not suppress any of these parameters. We also examined the in vitro effects of IL-10 on the human lung fibroblast cell line WI-38. IL-10 significantly reduced constitutive and transforming growth factor-beta-stimulated type I collagen mRNA expression. However, IL-10 did not affect the proliferation of WI-38 cells induced by platelet-derived growth factor. These data suggested that exogenous IL-10 may be useful in the treatment of pulmonary fibrosis.
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PMID:Introduction of the interleukin-10 gene into mice inhibited bleomycin-induced lung injury in vivo. 1078 21

Skin wound healing exhibits type III collagen synthesis occurring transiently as early as 10 h after injury, with subsequent synthesis of type I to form a scar. We hypothesized that similar collagen type switching also occurred in the bleomycin model of lung fibrosis in the rat. We could measure elevated lung collagen synthesis rates as early as 4 days after administration of bleomycin. Collagen type I:III ratios in whole lung remained constant for the first 7 days at the control level of 2:1, then increased to as high as 5:1 at day 21. Procollagen mRNA content, expressed as a ratio of type I:III mRNAs, was consistent with the protein synthesis data and the observed ratio of collagen types being made by the lungs at the various time points evaluated. We conclude that a transient increase in type III relative to type I collagen does not occur in the bleomycin rat lung model. Therefore, the sequence of type-specific collagen expression and deposition in the skin wound healing model is not entirely analogous to this widely used animal model of pulmonary fibrosis.
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PMID:Early phase collagen synthesis in lungs of rats exposed to bleomycin. 1083 27

Tissue remodeling is a complex process that can occur in response to a wound or injury. In lung tissue, abnormal remodeling can lead to permanent structural changes that are characteristic of important lung diseases such as interstitial pulmonary fibrosis and bronchial asthma. Fibroblast-mediated contraction of three-dimensional collagen gels is considered an in vitro model of tissue contraction and remodeling, and the epithelium is one factor thought to modulate this process. We studied the effects of epithelium on collagen density and contraction using two-photon laser scanning microscopy (TPLSM). TPLSM was used to image autofluorescence of collagen fibers in an engineered tissue model of the human respiratory mucosa -- a three-dimensional co-culture of human lung fibroblasts (CCD-18 lu), denatured type I collagen, and a monolayer of human alveolar epithelial cell line (A549) or human bronchial epithelial cell line (16HBE14o(-)). Tissues were imaged at days 1, 8, and 15 at 10 depths within the tissue. Gel contraction was measured concurrently with TPLSM imaging. Image analysis shows that gels without an epithelium had the fastest rate of decay of fluorescent signal, corresponding to highest collagen density. Results of the gel contraction assay show that gels without an epithelium also had the highest degree of contraction (19.8% +/- 4.0%). We conclude that epithelial cells modulate collagen density and contraction of engineered human lung tissue, and TPLSM is an effective tool to investigate this phenomenon.
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PMID:Two-photon laser scanning microscopy of epithelial cell-modulated collagen density in engineered human lung tissue. 1130 54

TGF-beta plays a central role in the initiation and progression of pulmonary fibrosis. Glucocorticoids are frequently used to treat fibrotic diseases, but beneficial effects are often modest. Both TGF-beta and glucocorticoids have been reported to increase fibroblast contraction of native collagen gels, a model of fibrotic tissue remodeling. Therefore, we sought to determine how glucocorticoids interact with TGF-beta in this system. In this study, human fetal lung fibroblasts (HFL-1) were pretreated with or without TGF-beta for 72 h before they were cast into type I collagen gels. Various concentrations of glucocorticoids (budesonide or hydrocortisone) were added at the time of casting. Gel size was then monitored at different times after gel release. The surrounding media were collected for the assay of prostaglandin E2 (PGE2) and the cell lysates were analyzed for cyclooxygenase (COX) expression by immunoblot. Glucocorticoids alone significantly enhanced fibroblast-mediated contraction of collagen gels (P < 0.01) and dose-dependently inhibited PGE2 release by HFL-1 fibroblasts. TGF-beta significantly augmented gel contraction but also induced a 30% increase in PGE2 release and increased the expression of COX-1. Glucocorticoids inhibited TGF-beta1 induced-PGE2 release, and enhanced TGF-beta augmented gel contraction without significantly affecting TGF-beta augmented COX-1 expression. Indomethacin, a COX inhibitor, increased TGF-beta augmented gel contraction but had no further effect when added together with glucocorticoids. Thus, glucocorticoids can synergize with TGF-beta in augmenting fibroblast mediated collagen gel contraction through the inhibition of PGE2 production. Such interactions between glucocorticoids and TGF-beta may account, in part, for the lack of response of fibrotic diseases to glucocorticoids.
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PMID:Glucocorticoids and TGF-beta1 synergize in augmenting fibroblast mediated contraction of collagen gels. 1132 57

The pathogenesis of pulmonary fibrosis remains incompletely understood. Studies of associated inflammation have led to the discovery of a number of cytokines and chemokines that are found to be important either directly or indirectly for the fibrotic process. However, the importance of inflammation in pulmonary fibrosis is unclear, and at the time of diagnosis the inflammatory component is variable and usually not responsive to anti-inflammatory therapeutic agents. Patients usually exhibit evidence of active fibrosis with increased numbers of activated fibroblasts, many of which have the phenotypic characteristics of myofibroblasts. At these sites, increased amounts of extracellular matrix deposition are evident with effacement of the normal alveolar architecture. Animal model studies show the myofibroblast to be the primary source of type I collagen gene expression in active fibrotic sites. In vitro studies show differentiation of these cells from fibroblasts under the influence of certain cytokines but indicate their susceptibility to nitric oxide-mediated apoptosis. In addition to promoting myofibroblast differentiation, transforming growth factor-beta1 provides protection against apoptosis. Thus, this well-known fibrogenic cytokine is important both for the emergence of the myofibroblast and its survival against apoptotic stimuli. This is consistent with the critical importance of this cytokine in diverse models of fibrosis in various tissues. In view of these properties, the persistence or prolonged survival of the myofibroblast may be key to understanding why certain forms of lung injury may result in progressive disease, terminating in end-stage disease.
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PMID:The myofibroblast in pulmonary fibrosis. 1247 1

Increased lung IL-4 expression in pulmonary fibrosis suggests a potential pathogenetic role for this cytokine. To dissect this role, bleomycin-induced pulmonary inflammation and fibrosis were analyzed and compared in wild type (IL-4(+/+)) vs IL-4-deficient (IL-4(-/-)) mice. Lethal pulmonary injury after bleomycin treatment was higher in IL-4(-/-) vs IL-4(+/+) mice. By administration of anti-CD3 Abs, we demonstrated that this early response was linked to the marked T lymphocyte lung infiltration and to the overproduction of the proinflammatory mediators such as TNF-alpha, IFN-gamma, and NO in IL-4(-/-) mice. In contrast to this early anti-inflammatory/immunosuppressive role, during later stages of fibrosis, IL-4 played a profibrotic role since IL-4(-/-) mice developed significantly less pulmonary fibrosis relative to IL-4(+/+) mice. However, IL-4 failed to directly stimulate proliferation, alpha-smooth muscle actin, and type I collagen expression in lung fibroblasts isolated from the wild-type mice. Upon appropriate stimulation with other known fibrogenic cytokines, fibroblasts from IL-4(-/-) mice were relatively deficient in the studied parameters in comparison to fibroblasts isolated from IL-4(+/+) mice. Taken together, these data suggest dual effects of IL-4 in this model of lung fibrosis: 1) limiting early recruitment of T lymphocytes, and 2) stimulation of fibrosis chronically.
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PMID:Dual roles of IL-4 in lung injury and fibrosis. 1296 Feb 92

MCP-1, which signals via the CC chemokine receptor 2 (CCR2), is induced in lung fibrosis that is accompanied by mononuclear cell recruitment and activation of lung fibroblasts. To evaluate the role of CCR2 in lung fibrosis, CCR2 knockout (ko) mice were used in a model of bleomycin-induced lung fibrosis. Wild type (wt) and ko mice were injected endotracheally with bleomycin to induce lung injury and fibrosis, and then analyzed for degree of lung fibrosis and cytokine expression. The results showed significantly reduced fibrosis in ko mice as evidenced by decreased lung type I collagen gene expression and hydroxyproline content relative to those in wt mice. Lung TNF-alpha and TGF-beta1 expression was significantly lower in ko vs. wt mice, while MCP-1 expression was unaffected. Interestingly, lung alpha-smooth muscle actin (alpha-SMA) expression, a marker for myofibroblast differentiation, was also decreased in ko mice, which was confirmed by analysis of isolated lung fibroblasts. Fibroblasts from ko mice exhibited decreased responsiveness to TGF-beta1 induced alpha-SMA expression, which was associated with reduced expression of TGF-beta receptor II (TbetaRII) and Smad3. These findings suggest that CCR2 signaling plays a key role in bleomycin-induced pulmonary fibrosis by regulating fibrogenic cytokine expression and fibroblast responsiveness to TGF-beta.
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PMID:CC-chemokine receptor 2 required for bleomycin-induced pulmonary fibrosis. 1460 68

The origin of fibroblasts in pulmonary fibrosis is assumed to be intrapulmonary, but their extrapulmonary origin and especially derivation from bone marrow (BM) progenitor cells has not been ruled out. To examine this possibility directly, adult mice were durably engrafted with BM isolated from transgenic mice expressing enhanced GFP. Induction of pulmonary fibrosis in such chimera mice by endotracheal bleomycin (BLM) injection caused large numbers of GFP(+) cells to appear in active fibrotic lesions, while only a few GFP(+) cells could be identified in control lungs. Flow-cytometric analysis of lung cells confirmed the BLM-induced increase in GFP(+) cells in chimera mice and revealed a significant increase in GFP(+) cells that also express type I collagen. GFP(+) lung fibroblasts isolated from chimera mice expressed collagen and telomerase reverse transcriptase but not alpha-smooth muscle actin. Treatment of isolated GFP(+) fibroblasts with TGF-beta failed to induce myofibroblast differentiation. Cultured lung fibroblasts expressed the chemokine receptors CXCR4 and CCR7 and responded chemotactically to their cognate ligands, stromal cell-derived factor-1 alpha and secondary lymphoid chemokine, respectively. Thus the collagen-producing lung fibroblasts in pulmonary fibrosis can also be derived from BM progenitor cells.
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PMID:Bone marrow-derived progenitor cells in pulmonary fibrosis. 1472 8

Bleomycin-induced pulmonary fibrosis is characterized by inflammation, emergence of myofibroblasts, and deposition of extracellular matrix. In an attempt to identify genes that may be involved in fibrosis, we used a 10,000 element (10 K) rat cDNA microarray to analyze the lung gene expression profiles in this model in the rat. Cluster analysis showed 628 genes were more than or equal to twofold up- or down-regulated, many of which were known to be involved in fibrosis. However, the most dramatic increase was observed with FIZZ1 (found in inflammatory zone; also known as RELM-alpha or resistin-like molecule-alpha), which was induced 17-fold to approximately 25-fold at the peak of expression. In situ hybridization analysis revealed FIZZ1 expression to localize primarily to alveolar and airway epithelium, which was confirmed in vitro by analysis of isolated type II alveolar epithelial cells. However FIZZ1 expression was not detected in isolated lung fibroblasts. Co-culture of FIZZ1-expressing type II cells with fibroblasts stimulated alpha-smooth muscle actin and type I collagen expression independent of transforming growth factor-beta. Transfection of a FIZZ1-expressing plasmid into fibroblasts or treatment with glutathione S-transferase-FIZZ1 fusion protein stimulated alpha-smooth muscle actin and collagen I production. These results suggest a novel role for FIZZ1 in myofibroblast differentiation in pulmonary fibrosis.
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PMID:FIZZ1 stimulation of myofibroblast differentiation. 1503 19

Keratinocyte growth factor (KGF) is a mitogen for rat type II cells and also stimulates differentiation in vitro. Administration of KGF also protects the lung from a variety of injuries and subsequent development of fibrosis. Because transforming growth factor (TGF)-beta has been shown to inhibit epithelial cell proliferation and surfactant protein gene expression in other systems and is thought to be a major effector in pulmonary fibrosis, we sought to determine if TGF-beta would antagonize the effects of KGF in primary cultures of alveolar type II cells. Type II cells were cultured on a matrix of type I collagen and Matrigel in the presence or absence of KGF and/or TGF-beta. KGF alone greatly stimulated proliferation and increased cyclin-dependent kinase (cdk) 2 kinase activity and Retinoblastoma susceptibility gene product (Rb) phosphorylation. Cyclin D1, cdk2, and cdc25A protein levels were increased, and p15(Ink4b) and p27(Kip1) protein levels were decreased. TGF-beta markedly inhibited alveolar epithelial cell proliferation induced by KGF. TGF-beta inhibited cdk2 enzyme activity and Rb phosphorylation and increased p15(Ink4b) protein levels. TGF-beta also inhibited differentiation induced by KGF as measured by secretion of surfactant protein-A into the apical media. In summary, TGF-beta inhibits the proliferative effect of KGF in vitro and may be a biologic antagonist of KGF.
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PMID:Transforming growth factor-beta antagonizes alveolar type II cell proliferation induced by keratinocyte growth factor. 1533 29


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