TNF-α inhibits asbestos-induced cytotoxicity via a NF-κB-dependent pathway, a possible mechanism for asbestos-induced oncogenesis

Haining Yang, Maurizio Bocchetta, Barbara Kroczynska, Amira G. Elmishad, Yuanbin Chen, Zemin Liu, Concerta Bubici, Brooke T. Mossman, Harvey I. Pass, Joseph R. Testa, Guido Franzoso, Michele Carbone

Research output: Contribution to journalArticlepeer-review

260 Scopus citations

Abstract

Asbestos is the main cause of human malignant mesothelioma (MM). In vivo, macrophages phagocytize asbestos and, in response, release TNF-α and other cytokines that contribute to carcinogenesis through unknown mechanisms. In vitro, asbestos does not induce transformation of primary human mesothelial cells (HM); instead, asbestos is very cytotoxic to HM, causing extensive cell death. This finding raised an apparent paradox: How can asbestos cause MM if HM exposed to asbestos die? We found that asbestos induced the secretion of TNF-α and the expression of TNF-α receptor I in HM. Treatment of HM with TNF-α significantly reduced asbestos cytotoxicity. Through numerous technical approaches, including chemical inhibitors and small interfering RNA strategies, we demonstrate that, in HM, TNF-α activates NF-κB and that NF-κB activation leads to HM survival and resistance to the cytotoxic effects of asbestos. Our data show a critical role for TNF-α and NF-κB signaling in mediating HM responses to asbestos. TNF-α signaling through NF-κB dependent mechanisms increases the percent of HM that survives asbestos exposure, thus increasing the pool of asbestos-damaged HM that are susceptible to malignant transformation. Cytogenetics supported this hypothesis, showing only rare, aberrant metaphases in HM exposed to asbestos and an increased mitotic rate with fewer irregular metaphases in HM exposed to both TNF-α and asbestos. Our findings provide a mechanistic rationale for the paradoxical inability of asbestos to transform HM in vitro, elucidate and underscore the role of TNF-α in asbestos pathogenesis in humans, and identify potential molecular targets for anti-MM prevention and therapy.

Original languageEnglish
Pages (from-to)10397-10402
Number of pages6
JournalProceedings of the National Academy of Sciences of the United States of America
Volume103
Issue number27
DOIs
StatePublished - Jul 4 2006

Keywords

  • Cancer
  • Inflammation
  • Mesothelioma

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