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:C0037116 (silicosis)
1,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Silicosis leads to altered release of fibrogenic and immunomodulating mediators from alveolar macrophages (AM). Since 5-lipoxygenase metabolites have been shown to possess proinflammatory effects and to promote the release of cytokines such as tumor necrosis factor-alpha (TNF-alpha) from mononuclear phagocytes, we determined leukotriene secretion from silica-exposed AM. Rats were exposed to an aerosol of silica particles for 8 days and AM were harvested by bronchoalveolar lavage 5 to 7 mo after exposure. AM from both air-sham control and silica-exposed rats displayed minimal spontaneous leukotriene release upon in vitro culture. Stimulation with opsonized zymosan particles induced leukotriene B4 (LTB4) and leukotriene C4 (LTC4) secretion, which was much greater in control AM than in AM from silica-dusted rats. The reverse was found for zymosan-induced TNF-alpha production, which was higher in AM from silica-exposed than from control rats. To study the interrelation between leukotriene and TNF-alpha release, we incubated zymosan-stimulated AM with the 5-lipoxygenase inhibitor VZ 65. VZ 65 suppressed zymosan-induced TNF-alpha release from AM in a dose-dependent manner, and TNF-alpha production could be restored almost completely by addition of LTB4. These experiments demonstrate that silica exposure resulted in a decreased LTB4 and LTC4 production from AM, which may represent a regulatory mechanism to counterbalance enhanced TNF-alpha production during silicosis.
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PMID:Reduced release of leukotrienes B4 and C4 from alveolar macrophages of rats with silicosis. 132 67

The pathogenesis of silicosis results, in part, from interactions between silica particles and alveolar macrophages (AM) with release of cytokines and other mediators. Different arachidonic acid metabolites have been shown to promote or to suppress inflammation and fibrosis. We designed experiments to study the production of cyclooxygenase metabolites and tumor necrosis factor-alpha (TNF-alpha) from macrophages during active silicosis. Macrophages were harvested from rats 5 to 7 mo after an 8-day silica aerosol exposure. Upon in vitro culture of AM, the spontaneous release of prostaglandin E2 (PGE2), thromboxane B2 (TXB2), and prostaglandin D2 (PGD2) of silica-exposed animals was higher than that of sham-exposed animals. Moreover, AM from silicotic rats displayed an increased sensitivity to low concentrations of lipopolysaccharide (LPS, 10 ng/ml) and released copious amounts of PGE2 and TXB2. When compared with similarly enhanced release of TNF-alpha from AM of silica-exposed rats, PGE2 production occurred later and started to increase when TNF-alpha production declined. Addition of the cyclooxygenase blocker indomethacin augmented TNF-alpha production, whereas the addition of PGE2 counteracted TNF-alpha release. Also peritoneal macrophages, which did not have direct contact with silica particles, released enhanced levels of PGE2 in response to low LPS doses. We conclude that AM and other macrophages from silica-exposed rats are preactivated and display an enhanced prostanoid production that could serve anti-inflammatory or immunomodulating roles in silicosis.
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PMID:Enhanced release of prostaglandin E2 from macrophages of rats with silicosis. 155 Jun 84

In silicosis, alveolar macrophages (AM) are thought to induce chronic inflammation and fibrosis by release of cytokines. Rats were exposed to aerosols of alpha-quartz and examined 4 to 9 mo later for persistence of silica particles and release of tumor necrosis factor-alpha (TNF-alpha) from macrophages. Silica particles were detected in AM, lung parenchyma, and thoracic lymphoid organs, whereas extrathoracic lymphoid tissues and organs were free of the mineral. When AM were tested functionally, no spontaneous release of TNF-alpha was observed. However, upon in vitro stimulation of AM from silicotic rats with a low concentration of lipopolysaccharide (10 ng/ml), abundant TNF-alpha production was found that was higher and occurred more rapidly than with AM from sham-exposed animals. Peritoneal macrophages, which did not have contact with silica particles, displayed a similarly enhanced TNF-alpha release in response to low doses of lipopolysaccharide. These data demonstrate a state of systemic preactivation ("priming") of macrophages that supports the notion that silicosis is associated with a general immunostimulation.
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PMID:Systemic macrophage stimulation in rats with silicosis: enhanced release of tumor necrosis factor-alpha from alveolar and peritoneal macrophages. 191 Aug 24

Asbestosis and silicosis are chronic, fibrosing lung diseases due to prolonged inhalation of asbestos fibers or silica particles. However, little is known about the implication of these toxic dusts on cell-mediated cytotoxicity. Among the first types of cells that are in contact with the dusts are the alveolar macrophages (AM). We studied the effect of different concentrations of UICC chrysotile asbestos and silica on 18-h cytotoxicity of AM against tumor necrosis factor (TNF)-resistant P815 target cells or TNF-sensitive L929 target cells. Rat AM, obtained by bronchoalveolar lavage, were incubated for 2 h with 20, 50, or 100 micrograms/ml chrysotile or silica before the addition of target cells. AM cytotoxicity was significantly inhibited at greater than 20 micrograms/ml of chrysotile. In contrast, silica did not inhibit AM-mediated cytotoxicity at any concentration used. Asbestos, but not silica, caused significant production of PGE2 by macrophages and target cells. Addition of the cyclooxygenase inhibitor indomethacin to our system abolished all inhibition by asbestos. These results suggest that the inhibition of AM-mediated cytotoxicity by chrysotile was caused by prostaglandins, and that fibrogenic particles differ in their capacity to modulate AM function.
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PMID:Inhibition of alveolar macrophage cytotoxicity by asbestos: possible role of prostaglandins. 215 23

Interleukin-1 (IL-1) and tumor necrosis factor-alpha (TNF-alpha) are major proinflammatory cytokines inducing the synthesis and release of many inflammatory mediators. They are involved in immune regulation, autoimmune diseases, and inflammation. Acanthoic acid, (-)-pimara-9(11),15-dien-19-oic acid, is a pimaradiene diterpene isolated from the Korean medicinal plant, Acanthopanax koreanum. When human monocytes/macrophages stimulated with silica were treated with 0.1-10 microg/ml acanthoic acid, the production of IL-1 and TNF-alpha was inhibited up to 90%, but the production of interleukin-6 (IL-6) was not inhibited at all. At these concentrations, it had no cytotoxic effect on human monocytes/macrophages. It also suppressed the production of TNF-alpha by alveolar macrophages and lymphocytes stimulated with silica. In addition, acanthoic acid inhibited the release of superoxide anion and hydrogen peroxide from human monocytes/macrophages and neutrophils. To know the antifibrotic effects of acanthoic acid, its effects on fibroblast proliferation and collagen synthesis were tested. The proliferation of NIH3T3 cells was inhibited almost completely by the addition of the culture supernatants of human monocytes/macrophages treated with acanthoic acid, but not by the addition of acanthoic acid only. In vitro and in vivo treatment with acanthoic acid reduced collagen production by rat lung fibroblasts and lung tissue. Furthermore, acanthoic acid suppressed granuloma formation and fibrosis in the experimental silicosis. Acanthoic acid reduced serum GOT and GPT in the rats with cirrhosis induced by CCl4, and it was effective in reducing hepatic fibrosis and nodular formation. Taken together, these data indicate that acanthoic acid has a potent anti-inflammatory and antifibrosis effect by reducing IL-1 and TNF-alpha production.
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PMID:Suppression of interleukin-1 and tumor necrosis factor-alpha production by acanthoic acid, (-)-pimara-9(11),15-dien-19-oic acid, and it antifibrotic effects in vivo. 866 Aug 20

Silicosis is characterized by fibrosing nodular lesions that may eventually develop into progressive massive fibrosis (PMF). Cytokines (interleukin-1beta [IL-1beta], tumor necrosis factor-alpha [TNF-alpha] and growth factors insulin-like growth factor-1 [IGF-1] platelet-derived growth factor [PDGF]) have been implicated in the formation of these lesions. TGF-beta promotes extracellular matrix accumulation by upregulating collagen and fibronectin gene expression, and inhibits matrix degradation by decreasing secretion of proteases and increasing secretion of protease inhibitors. We hypothesized that TGF-beta is associated with matrix deposition and fibrosis in silicosis. To test this hypothesis we studied early and late nodular lesions and PMF (11 cases and two controls) with immunohistochemistry, using rabbit polyclonal antibody to the purified whole molecule of TGF-beta in Bouin's fixed lung tissue. This antibody is reactive with both intra- and extracellular forms of TGF-beta. In the control lungs, small amounts of TGF-beta were present in the bronchial epithelium, macrophages, bronchial and vascular smooth muscle, and bronchial glands. There was minimal to moderate staining in the early silicotic peribronchiolar lesions. In the nodular lesions of silicosis, central hyalinized areas contained the maximum staining for TGF-beta. Fibroblasts in the periphery of the nodular lesions were also positive. In acute silicosis, there was marked staining of hyperplastic alveolar epithelium. Macrophages were markedly positive. In the PMF lesions, large areas of scar tissue contained TGF-beta. These data suggest a major role for TGF-beta in silicosis, particularly in the formation of silicotic nodules and the development of PMF.
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PMID:Transforming growth factor-beta (TGF-beta) in silicosis. 888 10

The cytokines interleukin-1beta (IL-1beta) and tumor necrosis factor-alpha (TNFalpha), derived from macrophages and other cells, may promote mononuclear cell inflammation and fibrosis in pulmonary silicosis. C3H/HeN mice were exposed to control air or to an aerosol of 70 mg/m3 cristobalite silica for 5 h/d for 12 days and examined at 2 and 16 weeks after exposure. This exposure resulted in murine silicosis, as manifested by focal mononuclear cell accumulations, diffuse interstitial fibrosis, lymphoid tissue enlargement, recruitment of inflammatory cells into BAL fluid, and increased total lung collagen. Semiquantitative reverse transcription-polymerase chain reaction (RT-PCR) with designed primers and membrane hybridization with biotinylated cDNA probes were used to assess the abundance of IL-1beta and TNFalpha mRNA. In situ hybridization with digoxigenin-labeled cDNA probes was used to localize gene expression. Persistent overexpression of both IL-1beta and TNFalpha were found at 2 and 16 weeks in the lungs of silica-exposed mice compared with air-sham control mice. IL-1beta and TNFalpha expression localized to individual mononuclear cells in the alveolar spaces, groups of cells within the aggregate lesions, and scattered mononuclear cells in BALT and lymphoid nodules. Thus, cells producing IL-1beta and TNFalpha appear to be intimately associated with the evolving lesions of silicosis, and the lymphoid tissue of the lung may be important in driving the pathogenesis of this disease.
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PMID:Persistent overexpression of interleukin-1beta and tumor necrosis factor-alpha in murine silicosis. 954 46

Alveolar macrophages play a key role in the development of silicosis by releasing a host of mediators, such as, cytokines and chemokines, which contribute to a complex network of interactions that result in the onset of lung injury, inflammation, and potentially fibrosis. Using a murine macrophage cell line, RAW 264.7, we exposed the cells to cristobalite-silica (35 micrograms/cm(2)) in the presence or absence of antioxidants and various modifiers of cellular antioxidant status. Treatment with dimethyl sulfoxide, extracellular glutathione, or N-acetyl-L-cysteine (NAC) decreased cristobalite-induced tumor necrosis factor (TNF)-alpha mRNA levels by 40%, 20%, and 42%, respectively. TNF-alpha protein levels were decreased by 90%, 32%, and 53%, respectively. Cristobalite-induced macrophage inflammatory protein (MIP)-2 mRNA levels were reduced by 52%, 38%, and 57%, with DMSO, GSH, and NAC treatment, respectively. Both MIP-1alpha and MIP-1beta mRNA levels were reduced at a magnitude similar to the reduction in TNF-alpha mRNA levels, whereas monocyte chemotactic protein (MCP)-1 mRNA levels were reduced at a magnitude similar to the reduction in MIP-2 mRNA levels following antioxidant treatment. These results suggests that the macrophage response to cristobalite exposure is mediated at least in part by oxidant stress.
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PMID:Antioxidant treatment attenuates cytokine and chemokine levels in murine macrophages following silica exposure. 1043 54

We investigated the role of Fas ligand in murine silicosis. Wild-type mice instilled with silica developed severe pulmonary inflammation, with local production of tumor necrosis factor (TNF)-alpha, and interstitial neutrophil and macrophage infiltration in the lungs. Strikingly, Fas ligand-deficient generalized lymphoproliferative disease mutant (gld) mice did not develop silicosis. The gld mice had markedly reduced neutrophil extravasation into bronchoalveolar space, and did not show increased TNF-alpha production, nor pulmonary inflammation. Bone marrow chimeras and local adoptive transfer demonstrated that wild-type, but not Fas ligand-deficient lung macrophages recruit neutrophils and initiate silicosis. Silica induced Fas ligand expression in lung macrophages in vitro and in vivo, and promoted Fas ligand-dependent macrophage apoptosis. Administration of neutralizing anti-Fas ligand antibody in vivo blocked induction of silicosis. Thus, Fas ligand plays a central role in induction of pulmonary silicosis.
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PMID:Fas ligand triggers pulmonary silicosis. 1145 90

Crystalline silica stimulates macrophages in vitro to release interleukin-1beta (IL-1beta), tumor necrosis factor-alpha (TNF-alpha), and nitric oxide (NO) and induces apoptosis of macrophages. Because the fibrogenic potential of a particulate paralleled its ability to induce apoptosis in macrophages, we investigated the underlying mechanisms by which IL-1beta and NO mediate apoptosis and inflammation in murine silicosis. First, we demonstrated that silica induced NO production and apoptosis in vitro using the IC-21 macrophage cell line. Both NO release and apoptosis could be inhibited by neutralizing anti-IL-1beta antibody or the NO synthase (NOS) inhibitor N(G)-nitro-L-arginine-methyl ester (L-NAME), demonstrating the requirement for IL-1beta-mediated NO release in silica-induced apoptosis. We exposed IL-1beta knockout (IL-1beta(-/-)) mice, inducible NOS knockout (iNOS(-/-)) mice, and wild-type mice to 250 mg/m(3) silica for 5 h/d for 10 d using an inhalation chamber. Exposure of wild-type mice to silica resulted in lung inflammation, apoptosis, and significantly larger and more numerous silicotic lesions than in IL-1beta(-/-) mice over a 12-wk course. We also exposed iNOS(-/-) mice via inhalation in the same protocol and compared with wild-type mice and demonstrated that iNOS(-/-) mice had significantly reduced apoptosis and inflammation. These results demonstrated an association between apoptosis and inflammation in murine silicosis and support a potential role for IL-1beta-dependent NO-mediated apoptosis in the evolution of silicosis.
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PMID:Crucial role of interleukin-1beta and nitric oxide synthase in silica-induced inflammation and apoptosis in mice. 1185 Mar 47


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