Abstract
BackgroundAsbestos exposure is related to various diseases including asbestosis and malignant mesothelioma (MM). Among the pathogenic mechanisms proposed by which asbestos can cause diseases involving epithelial and mesothelial cells, the most widely accepted one is the generation of reactive oxygen species and/or depletion of antioxidants like glutathione. It has also been demonstrated that asbestos can induce inflammation, perhaps due to activation of inflammasomes.MethodsThe oxidation state of thioredoxin was analyzed by redox Western blot analysis and ROS generation was assessed spectrophotometrically as a read-out of solubilized formazan produced by the reduction of nitrotetrazolium blue (NTB) by superoxide. Quantitative real time PCR was used to assess changes in gene transcription.ResultsHere we demonstrate that crocidolite asbestos fibers oxidize the pool of the antioxidant, Thioredoxin-1 (Trx1), which results in release of Thioredoxin Interacting Protein (TXNIP) and subsequent activation of inflammasomes in human mesothelial cells. Exposure to crocidolite asbestos resulted in the depletion of reduced Trx1 in human peritoneal mesothelial (LP9/hTERT) cells. Pretreatment with the antioxidant dehydroascorbic acid (a reactive oxygen species (ROS) scavenger) reduced the level of crocidolite asbestos-induced Trx1 oxidation as well as the depletion of reduced Trx1. Increasing Trx1 expression levels using a Trx1 over-expression vector, reduced the extent of Trx1 oxidation and generation of ROS by crocidolite asbestos, and increased cell survival. In addition, knockdown of TXNIP expression by siRNA attenuated crocidolite asbestos-induced activation of the inflammasome.ConclusionOur novel findings suggest that extensive Trx1 oxidation and TXNIP dissociation may be one of the mechanisms by which crocidolite asbestos activates the inflammasome and helps in development of MM.
Highlights
Asbestos exposure is related to various diseases including asbestosis and malignant mesothelioma (MM)
The effects of crocidolite asbestos exposure on thioredoxin 1 (Trx1) expression in human mesothelial cells To determine the effect of crocidolite asbestos exposure on the expression levels of Trx1, LP9/h-TERT cells were exposed to 75 × 106 μm2/cm2 crocidolite for 8 and 24 h and RNA was extracted
The oxidation state of thioredoxin 1 (Trx1) after crocidolite exposure LP9 cells exposed to 75 × 106 μm2/cm2 crocidolite asbestos for 8 and 24 h showed a decrease in the proportion of determine whether the oxidation of thioredoxin by crocidolite was specific to crocidolite asbestos alone, LP9 cells were exposed to chrysotile asbestos and glass beads
Summary
Asbestos exposure is related to various diseases including asbestosis and malignant mesothelioma (MM). Among the pathogenic mechanisms proposed by which asbestos can cause diseases involving epithelial and mesothelial cells, the most widely accepted one is the generation of reactive oxygen species and/or depletion of antioxidants like glutathione. Chronic inflammation induced by asbestos exposure is believed to be involved in the pathogenic process that leads to asbestos related diseases like MM [6,7]. Recent work from our group has demonstrated that asbestos-induced inflammation in mesothelial cells and machrophages could, in part, be mediated by activation of the inflammasome, a protein complex involved in the processing of cytokines [8]. The exact mechanism by which asbestos activates the inflammasome is not completely understood, but reactive oxygen species (ROS) are believed to play a role [5]. ROS induced in response to crocidolite asbestos exposure have been shown to initially deplete intracellular levels of reduced glutathione [10,11], but the effect of crocidolite asbestos on another major cellular antioxidant, thioredoxin (Trx1) is unknown
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