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)

The synthesis of collagen and EIIIA-containing cellular fibronectin in certain forms of pulmonary fibrosis occurs in discrete locations: in the Masson bodies in bronchiolitis obliterans with organizing pneumonia and in focal clusters of fibroblasts (fibroblastic foci) within airspaces in usual interstitial pneumonia. These sites were examined by electron microscopy and immunohistochemistry using antibodies against cytoskeletal markers and extracellular matrix components in biopsies from three patients with bronchiolitis obliterans with organizing pneumonia and four patients with usual interstitial pneumonia. Fibroblasts of both Masson bodies and fibroblastic foci expressed vimentin and alpha smooth muscle actin but not desmin, distinguishing them from true smooth muscle. In both structures fibroblasts with well-formed actin filament bundles were aligned parallel to one another, enmeshed in a matrix of fibronectin-containing fibrils (microtendons) that linked cells and collagen bundles. Similar features characterize the phase of contraction during the healing of skin wounds. This suggests that active contractions of fibroblasts plays a role in the remodeling of the lung in pulmonary fibrosis.
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PMID:The roles of the myofibroblast in idiopathic pulmonary fibrosis. Ultrastructural and immunohistochemical features of sites of active extracellular matrix synthesis. 202 10

The majority of fibroblasts in alveolar septa are characterized by the presence of cytoplasmic bundles of microfilaments that contain cytoplasmic actin isoforms; these cells have been named contractile interstitial cells or V-type myofibroblasts. In the rat, they express desmin as intermediate filament protein. In this study, we explored the possibility that modulation and replication of such septal fibroblasts result in the appearance of alpha-smooth muscle (alpha-SM) actin-positive myofibroblasts, typical of lung fibrosis. Experimental pulmonary fibrosis was produced by a unique intratracheal instillation of bleomycin to 28 rats. Eight additional rats used as controls received the equivalent volume of saline. Paraffin and frozen sections of lungs were examined at days 1, 3, 5 and 7 after treatment. Microfilaments and intermediate filaments were stained using antibodies against total actin, alpha-SM actin, desmin, vimentin, keratin, and SM myosin. Electron microscopic labeling of desmin and alpha-SM actin using immunogold technique was done on Lowicryl K4M resin-embedded specimens. alpha-SM actin appeared in desmin-positive alveolar fibroblasts as early as 24 hours after intratracheal bleomycin instillation; the modulation of alpha-SM actin in these cells was preceded by a lymphomonocytic infiltration of alveolar septa. Twenty-four hours to 3 days after bleomycin administration, a proliferation of alveolar myofibroblasts occurred. Fibrosis with laying down of collagen fibers took place after the above mentioned cellular modifications. Our results support the view that septal fibroblastic cells can modulate into typical alpha-SM actin-containing myofibroblasts during experimental bleomycin-induced pulmonary fibrosis. In such a modulation a possible role of cytokines, particularly of transforming growth factor-beta, is considered.
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PMID:Rat alveolar myofibroblasts acquire alpha-smooth muscle actin expression during bleomycin-induced pulmonary fibrosis. 750 90

The interstitium of the fibrotic lung possesses a contractile capability that is unusual for nonmuscle tissue. An abundance of actin filament-laden cells have been demonstrated in animal and human studies of fibrotic lung tissue and have frequently been termed myofibroblasts. The origin and significance of these cells remain unclear. Proliferation of cells with the capability to contract and thereby generate force within the parenchyma is potentially a significant contribution to the increased lung elastic recoil of advanced pulmonary fibrosis. In the present study, we immunohistochemically examined these intermediate phenotypes of filament-laden cells with a focus on those expressing smooth muscle-associated isoforms of actin. The monoclonal antibody HHF35 was used to study the presence and distribution of cells expressing alpha and gamma smooth muscle actin in idiopathic pulmonary fibrosis (IPF). Adjacent sections of tissue from open lung biopsies of eight patients with IPF were stained with a pentachrome stain and with multiple antibodies (HHF35, polyclonal anti-actin, anti-vimentin, anti-keratin, anti-procollagen I, and anti-von Willebrand Factor VIII) to identify specific cell types. In addition, anti-laminin antibody was used to stain basement membrane. Many tightly packed, HHF35-reactive cells were found to be architecturally dissociated from airways and blood vessels in all eight patients with IPF. Some HHF35-reactive bundles were composed of loosely associated cells, and single smooth muscle cell types (SMC) were distributed in the fibrotic interstitium. Interestingly, some of the SMC were distinctly negative for anti-laminin and stained atypically with pentachrome. Moreover, some single SMC were found to be anti-procollagen type I reactive with double staining technique.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunohistochemical identification and characterization of smooth muscle-like cells in idiopathic pulmonary fibrosis. 758 11

Fibroblast heterogeneity is known to exist in chronically inflamed tissue such as pulmonary fibrosis (IPF) and scleroderma. We have previously shown differences in proliferation rates in primary lines and cloned lines of fibroblasts derived from IPF tissue compared with normal lung. In this study, we report that cell lines derived from fibrotic tissue demonstrate anchorage-independent growth in soft agarose culture whereas normal lung fibroblast lines do not. We also show that fibroblast lines derived from neonatal lung tissue form colonies at about the same frequency as the fibrotic cells. Colonies from both fibrotic and neonatal lines were shown to be positive for vimentin, laminin, fibronectin, fibronectin receptor, beta-actin, and tropomyosin by immunohistochemistry but were negative for desmin, keratin, Factor VIII, alpha-smooth muscle cell actin, and tenascin. Treatment with cytokines TGF-beta and PDGF or with corticosteroid modified the colony-forming capacity of fibrotic and neonatal cell lines, however, none of these treatments induced normal lung cell lines to form colonies. The presence of cells in adult fibrotic tissue with growth characteristics similar to those exhibited by neonatal cells is further evidence of fibroblast heterogeneity and suggests newly differentiated fibroblasts may be prevalent in fibrotic tissue and contribute directly to the matrix disorder seen in this disease.
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PMID:Anchorage-independent colony growth of pulmonary fibroblasts derived from fibrotic human lung tissue. 816 56

Cell types of lung epithelia of mini pigs have been studied using a panel of monoclonal and polyclonal antibodies against cytokeratins (CKs) and vimentin and three lectins before and after radiation-induced fibrosis. In normal tissues, CK18 specific antibodies reacted above all with type II alveolar epithelial cells, while CK7 and pan CK-specific antibodies stained the whole alveolar epithelium. In bronchial epithelial cells, CKs 7, 8, 18 and focally CKs 4 and 13 as well as vimentin were found. Cell specificity of the CK pattern was confirmed by double label immunofluorescence using type II cell-specific Maclura pomifera (MPA) lectin, type I cell specific Lycopersicon esculentum (LEA) lectin and capillary endothelium-binding Dolichos biflorus (DBA) lectin. In experimental pulmonary fibrosis, enhanced coexpression of CK and vimentin was observed in bronchial epithelium. Subtypes of alveolar epithelial cells were no longer easily distinguishable. CK18 was found to be expressed in the entire alveolar epithelium. The gradual loss of the normal alveolar epithelial marker, as seen by the binding of MPA to type I-like cells, of LEA to type II-like cells and the partial loss of MPA-binding to type II cells, was paralleled by the appearance of CK4, typical for squamous epithelia, and the occurrence of DBA-binding in epithelial cells. Implications of these results for general concepts of intermediate filament protein expression and lectin binding in the fibrotic process are discussed.
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PMID:Immuno- and lectin histochemistry of epithelial subtypes and their changes in a radiation-induced lung fibrosis model of the mini pig. 830 78

Platelet-derived growth factor (PDGF) is postulated to play a role in the pathophysiology of pulmonary fibrosis. Recombinant human PDGF-BB administered as a single intratracheal injection in rats causes an increase in peribronchial and perivascular stromal cells on days 2 and 3 after injection as evaluated by hematoxylin and eosin histology and 5-bromodeoxyuridine incorporation. Proliferation of bronchial epithelial cells and arterial smooth muscle cells, although not evident by routine histological examination alone, is detected on days 2 and 3 by increased 5-bromodeoxyuridine incorporation. A mild increase in 5-bromodeoxyuridine labeling is observed in peripheral alveolar parenchyma after injection of PDGF. The proliferative peribronchial and perivascular mesenchymal cells appear by light microscopic and ultrastructural criteria to be fibroblasts that are immunoreactive for vimentin but negative for alpha-smooth muscle actin and desmin. Daily intratracheal injection of PDGF-BB for 3 days causes a slightly more pronounced peribronchial and perivascular spindle cell proliferation accompanied by collagen deposition as evaluated by Masson's trichrome stain. PDGF-induced increases in cellularity and collagen resolve within 5 days after the last PDGF injection. In conclusion, intratracheal injection of PDGF-BB causes transient proliferation of pulmonary mesenchymal and epithelial cells accompanied by collagen deposition.
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PMID:Platelet-derived growth factor causes pulmonary cell proliferation and collagen deposition in vivo. 870 93

We present a comparative histopathological study of both acute and chronic human adenovirus pneumonia, with reference to the cellular and extracellular matrix components. Seventeen lungs from autopsied patients whose ages ranged from 2 to 60 months were studied. Adenovirus types 1, 2, 3, 5, and 7 were isolated from 15 patients with acute lung disease, and types 2 and 7 were isolated from the other two patients with chronic pulmonary illness. The results indicated the occurrence of two basic patterns of adenovirus interstitial pneumonia (1) classic pattern (acute), characterized by necrosis and degeneration and many type II pneumocytes with intranuclear inclusion bodies, which were positive for adenovirus DNA by in situ hybridization, and (2) proliferative or proliferative-productive pattern (chronic), which presented with diffuse pulmonary fibrosis and the interstitial proliferation of fibroblast-like cells, compatible with myofibroblasts (positive for vimentin and alpha smooth muscle actin), and increase in collagen types I and III, elastic fibers, and proteoglycans. Alveolar collapse appears to be an important pathogenetic mechanism in the development of this pattern.
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PMID:Acute and chronic human adenovirus pneumonia: cellular and extracellular matrix components. 902 50

Increased accumulation of collagens in extracellular matrix (ECM) is mainly responsible for bleomycin-induced pulmonary fibrosis in rats. This study was designed to assess whether increased collagen accumulation in bleomycin-induced pulmonary fibrosis is associated with heat shock protein (HSP) 47, a molecular chaperone for collagen biosynthesis. We investigated the expression of type I and type III collagens and HSP47 in bleomycin-induced pulmonary fibrosis. Fifteen male Wistar rats were divided into two groups; group I: bleomycin-induced pulmonary fibrosis; group II: PBS-treated age-matched control rats. Pulmonary fibrosis was induced by injecting a single dose of bleomycin sulphate (5 U/kg body weight) intratracheally. Three bleomycin-treated rats and two age-matched control rats were sacrificed at the end of each of the 1st, 2nd and 4th weeks of the experiment. In bleomycin-treated rats, histological examination revealed pulmonary fibrosis, which increased with time. Increased type I and type III collagen desposition was observed in the lungs of all the bleomycin-treated rats. Weak immunostaining of HSP47 was noted in the control lungs. In contrast, strong immunostaining for HSP47 was seen in all the bleomycin-treated fibrotic lungs. In addition, increased numbers of phenotypically altered myofibroblasts (alpha-smooth muscle actin immunopositive) and fibroblast (vimentin immunopositive) were seen in bleomycin-treated lungs and found to express HSP47. Parallel increase of collagens and their molecular chaperone HSP47 expression was found in the bleomycin-treated lungs, and their co-localization could be detected by double immunostaining. Overexpression of HSP47 may play a significant part in the excessive assembly of collagens and could contribute in this way to the fibrosis found in bleomycin-treated rat lungs.
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PMID:Bleomycin-induced pulmonary fibrosis in rat is associated with increased expression of collagen-binding heat shock protein (HSP) 47. 964 46

Pulmonary fibrosis resulting from increased accumulation of various extracellular matrices is a prominent feature in chronic progressive lung diseases. Heat shock protein 47 (HSP47) is a collagen-binding stress protein known to have a specific role in the intracellular processing of procollagen molecules as a collagen-specific molecular chaperone in various organs. Possible involvement, however, of HSP47 in relation to increased deposition of collagens in fibrotic lung diseases is not yet known. In this study, we investigated the expression of HSP47 in various pulmonary fibrotic diseases. Formalin-fixed, paraffin-embedded lung sections from 17 autopsies of patients with various pulmonary fibrotic diseases, e.g., organizing pneumonia, interstitial pneumonia, idiopathic pulmonary fibrosis, and diffuse alveolar damage, were stained with monoclonal antibodies for alpha-smooth muscle actin, vimentin, CD68, Type III collagen, and HSP47. The extent of staining was graded semiquantitatively. Five control lung sections were also simultaneously studied. The fibrotic lung sections, in comparison with the control sections, had more interstitial cells positive for alpha-smooth muscle actin and fibroblasts positive for vimentin; we also saw increased infiltration of CD68-positive macrophages. For HSP47, in comparison with the control lung sections, markedly increased immunostaining was always noted in the fibrotic lung sections in association with increased accumulation of Type III collagen in the fibrotic masses. By double immunostaining, colocalization of collagens and HSP47 was noted in the regions of pulmonary fibrosis, and HSP47-expressing cells were found to be mainly alpha-smooth muscle actin-positive interstitial cells. From the above observations, we concluded that overexpression of HSP47 might play an important role in the excessive assembly/synthesis of collagens and could thereby contribute to the fibrosis found in pulmonary fibrotic lung diseases.
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PMID:Immunolocalization of collagen and collagen-binding heat shock protein 47 in fibrotic lung diseases. 987 49

To analyse the mechanism by which a bleomycin derivative, peplomycin (PLM) induces pulmonary fibrosis, we investigated differentiation of rat pulmonary fibroblasts to myofibroblasts (MF). In intraperitoneally PLM (5 mg/kg/day)-injected rats, the peripheries of lungs adjacent to the pleura revealed advanced fibrosis with a small number of alpha-smooth muscle actin (alpha-SMA)-positive MF, which ultrastructurally possessed abundant microfilaments and cellular organelles. In the fibrotic tissue, the expression of alpha-SMA-mRNA was detected by in situ reverse transcription-polymerase (RT-PCR). The message was strong just after a 2-week administration of PLM then decreased thereafter, although fibrosis advanced. When pulmonary fibroblasts were separated from saline-injected rats (N-Fib) and cultivated for 7 days in the presence of 5 mg/mL PLM, alpha-SMA protein was weakly expressed, while the majority of pulmonary fibroblasts separated from PLM-injected rats (P-Fib) became positive for alpha-SMA in 7-day cultivation and the expression of alpha-SMA in P-Fib was strongly increased by cultivation in the presence of PLM and transforming growth factor-beta (TGF-beta), but not basic fibroblast growth factor (bFGF) or platelet-derived growth factor (PDGF), although the cell proliferation was most strongly enhanced by bFGF and only slightly by PLM and TGF-beta. The alpha-SMA-positive cells expressed vimentin, but only weakly expressed desmin. Additionally, P-Fib generated larger amounts of TGF-beta and bFGF than were generated by N-Fib. These results indicate that PLM induces pulmonary fibrosis by differentiating fibroblasts to alpha-SMA-positive MF, and that bFGF and TGF-beta play each critical role in the different phases of PLM-induced pulmonary fibrosis by inducing fibroblast proliferation and transformation, respectively.
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PMID:Peplomycin, a bleomycin derivative, induces myofibroblasts in pulmonary fibrosis. 1149 47


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