Imagem em tuberculose pulmonar

Ozone (O(3)) is a significant component of atmospheric air pollution and produces detrimental effects in the lung. Although the mechanism of O(3)-induced lung inflammation and injury is unclear, the increased release of the proinflammatory cytokine tumor necrosis factor-alpha (TNF-alpha) by lung cells following O(3) exposure may shed some light on this subject. To investigate the role of TNF-alpha in the O(3)-induced pulmonary insult, we intraperitoneally injected rats with either rabbit preimmune serum or rabbit antirat TNF-alpha 1 h prior to O(3) exposure. Approximately 12 h after the end of O(3) exposure the animals were sacrificed, the lungs lavaged, and tissue samples collected for expression of cytokine genes relevant to inflammation. The bronchoalveolar lavage fluid (BALF) was analyzed for albumin as a marker of pulmonary epithelial permeability changes and for fibronectin for its role in lung injury and repair. The lavage cells were collected, counted, and identified to quantitate the inflammatory response. Ozone exposure resulted in a significant increase in BALF albumin and fibronectin as compared to air-exposed controls and a significant increase in BALF polymorphonuclear leukocytes (PMNs). Antibody treatment produced a significant decrease in BALF albumin and PMNs as compared to O(3)-exposed rats given preimmune serum. Antibody treatment did not affect the BALF fibronectin concentration or the total cell count in the BAL. Tissue analysis for gene arrays revealed an activation of IL-1alpha, IL-6, and IL-10 in animals exposed to O(3). The gene expression was downregulated in animals treated with anti-TNF-alpha antibody prior to O(3) exposure. The results suggest a central role for TNF-alpha in the mechanistic pathways critical to lung inflammation. The significance of TNF-alpha in the inflammation and epithelial injury produced by ozone exposure reflects its overall contribution through modulation of other cytokines.

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Amiodarone-Induced Pulmonary Toxicity in Fischer Rats: Release of Tumor Necrosis Factor Alpha and Transforming Growth Factor Beta by Pulmonary Alveolar Macrophages

Reinhart

Gairola

1997

Journal of Toxicology and Environmental Health

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Amiodarone is an antiarrhythmic drug with numerous side effects, the most serious being the development of pulmonary toxicity. We have previously reported that a single intratracheal instillation of amiodarone to Fischer 344 rats results in pulmonary fibrosis within 6 wk of treatment. Presently, the mechanism of amiodarone-induced pulmonary toxicity is unknown. Cytokines that stimulate fibroblast proliferation and/or collagen production may play a role in amiodarone-induced pulmonary toxicity. To investigate this possibility, female rats were given a single intratracheal instillation of amiodarone (6.25 mg/kg), its metabolite desethylamiodarone (5 mg/kg), or vehicle (sterile water). At 1, 2, 3, or 6 wk after treatment the lungs were lavaged and the recovered cells were counted and identified. The alveolar macrophages were isolated by attachment to plastic petri dishes, cultured overnight, and the spent media collected for tumor necrosis factor alpha (TNF-alpha) and transforming growth factor beta (TGF-beta) analyses. Desethylamiodarone treatment resulted in a neutrophilic alveolitis, but the levels of TNF-alpha and TGF-beta were not significantly different from control animals. In contrast, amiodarone treatment resulted in a lymphocytic alveolitis and significantly higher amounts of TNF-alpha were observed at 3 and 6 wk after treatment. A trend toward higher levels of TGF-beta was also noted in the amiodarone-treated group at wk 1-3 but the values were not significantly different from those of controls. In conclusion, the release of TNF-alpha may play a role in the development of amiodarone-induced pulmonary toxicity.

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Amiodarone-induced pulmonary fibrosis in Fischer 344 rats

1996

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Attenuation of ozone-induced lung injury by interleukin-10

1999

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The influence of polymorphonuclear leukocytes on altered pulmonary epithelial permeability during ozone exposure

1998

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Alteration of Epithelial Integrity, Alkaline Phosphatase Activity, and Fibronectin Expression in Lungs of Rats Exposed to Ozone

Bhalla

Gupta

Reinhart

1999

Journal of Toxicology and Environmental Health, Part A

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The deleterious effects of ozone (O3), an oxidant air pollutant, in the lung are dependent on dose and exposure duration and generally evolve with time postexposure. This study characterized the time sequence of epithelial injury and fibronectin expression in the lungs of rats exposed to O3. Bronchoalveolar lavage (BAL) fluid was analyzed for alkaline phosphatase and total protein as markers of epithelial injury and increased permeability, and fibronectin for its role in inflammation and lung injury. The results revealed a time-related increase in total protein in the BAL fluid following a 3-h exposure of rats to 1 ppm O3. The increased protein concentrations peaked at 12 h and then declined, but remained significantly higher than control at 24 h postexposure. A similar time-related significant increase also occurred for BAL fibronectin and alkaline phosphatase activity. However, the return of alkaline phosphatase levels to baseline prior to a comparable reduction in protein levels suggests repair of injured cells, but a delay in the formation of epithelial junctions that limit the transfer of serum proteins to air spaces. By cytochemistry, alkaline phosphatase activity was detected in association with lung type II epithelial cells and in BAL polymorphonuclear leukocytes (PMNs), but not in macrophages. While a significant increase in cytochemically detectable alkaline phosphatase resulted from the increase in PMN number following O3 exposure, mononuclear cells constituted the primary cell type responsible for fibronectin mRNA upregulation. While the cytochemical observations support the role of inflammatory cells in the injury process, the comparability of temporal changes in BAL protein, fibronectin, and alkaline phosphatase suggests a mechanistic role for fibronectin in lung injury.

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Amiodarone-Induced Pulmonary Toxicity in Fischer Rats: Release of Tumor Necrosis Factor Alpha and Transforming Growth Factor Beta by Pulmonary Alveolar Macrophages

Reinhart

Gairola

1997

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Enhancement of fibronectin expression in rat lung by ozone and an inflammatory stimulus

Gupta

Reinhart

Bhalla

1998

American Journal of Physiology-Lung Cellular and Molecular Phys

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This study investigated the relationship of fibronectin expression and induction of pulmonary inflammation by ozone (O3). Rats were exposed to 0.8 parts/million O3 to induce lung inflammation. A second inflammatory stimulus, rabbit serum, was applied intratracheally to augment O3-induced inflammation. Bronchoalveolar lavage fluid (BALF) and lung tissues were analyzed for fibronectin protein and mRNA expression. Blood plasma was analyzed to investigate the potential of a minimally invasive procedure in predicting lung inflammation and fibronectin levels. Significant increases in the levels of fibronectin protein in the BALF and lung tissue after O3 exposure were further enhanced by pretreatment with normal serum. An increase in fibronectin mRNA following O3 exposure was also enhanced by serum pretreatment, which by itself had no effect on lung fibronectin mRNA expression. Plasma fibronectin levels were comparable in air-PBS and O3-PBS groups but increased in the O3-serum group. The results suggest leakage of fibronectin from blood plasma into the lung following intratracheal application of rabbit serum and upregulation of local synthesis following O3 exposure.

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Paul G. Reinhart

Amelioration of Ozone-Induced Lung Injury by Anti-Tumor Necrosis Factor-alpha

Amiodarone-Induced Pulmonary Toxicity in Fischer Rats: Release of Tumor Necrosis Factor Alpha and Transforming Growth Factor Beta by Pulmonary Alveolar Macrophages

Amiodarone-induced pulmonary fibrosis in Fischer 344 rats

Attenuation of ozone-induced lung injury by interleukin-10

The influence of polymorphonuclear leukocytes on altered pulmonary epithelial permeability during ozone exposure

Alteration of Epithelial Integrity, Alkaline Phosphatase Activity, and Fibronectin Expression in Lungs of Rats Exposed to Ozone

Amiodarone-Induced Pulmonary Toxicity in Fischer Rats: Release of Tumor Necrosis Factor Alpha and Transforming Growth Factor Beta by Pulmonary Alveolar Macrophages

Enhancement of fibronectin expression in rat lung by ozone and an inflammatory stimulus

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