Arsenic is a potent carcinogen in humans. However, the molecular mechanisms underlying its toxicity in lung cancer remain unclear. Here, we report that arsenite-induced cytotoxicity is regulated by SQSTM1/p62 and BNIP3L/Nix signaling in non-small-cell lung cancer H460 cells. Arsenite exposure resulted in dose-dependent growth inhibition, which was associated with apoptosis, as demonstrated by depolarized mitochondrial membrane potential and cleavage of caspase-8, caspase-3, PARP-1, and Bax. The autophagy adaptor p62 was detected in the monomeric and multiple high-molecular-weight (HMW) forms, and protein levels were upregulated depending on both arsenite concentrations (≤45 μM) and exposure times (<24 h). LC3-II, an autophagy marker, was upregulated as early as 1 h after arsenite treatment. Expression of Nix, a mitochondrial outer membrane protein, continued to increase with arsenite concentration and exposure time; it was detected in the monomeric and multiple HMW forms. Soon after arsenite exposure, p62 colocalized with Nix in the cytoplasm, and p62 knockdown reduced the Nix levels and increased the LC3-II levels. In contrast, Nix knockdown did not affect the p62 and LC3-II levels but reduced caspase-8, caspase-3, and Bax cleavage, indicating that Nix accumulation resulted from its reduced autophagic degradation and promoted apoptosis. p38 inhibition markedly increased arsenite-induced Nix protein and reduced p62 protein levels, resulting in increased autophagy and apoptosis. Furthermore, c-Jun NH2-terminal kinase inhibition reduced Nix and Bax cleavage, and both signaling pathways were suppressed by N-acetylcysteine treatment. Our results suggest that arsenite-induced cytotoxicity is modulated by the coordinated action of p62 and Nix through MAPK.
Keywords: Arsenite; Autophagy; Bax cleavage; Nix; Non-small-cell lung cancer; p62.
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