Chronic environmental exposure to metal toxicants such as chromium and arsenic is closely related to the development of several types of common cancers. Genetic and epigenetic studies in the past decade reveal that post-translational modifications of histones play a role in metal carcinogenesis. However, exact molecular mechanisms of metal carcinogenesis remain to be elucidated. In this study we found that As2O3, an environmental metal toxicant, upregulated overall modifications of many cellular proteins by SUMO2/3. Sumoylated proteins from arsenic-treated cells constitutively expressing His6-SUMO2 were pulled down by Ni-IDA resin under denaturing conditions. Mass spectrometric analysis revealed over 100 proteins that were potentially modified by sumoylation. Mus81, a DNA endonuclease involved in homologous recombination repair, was among the identified proteins whose sumoylation was increased after treatment with As2O3. We further showed that K10 and K524 were 2 lysine residues essential for Mus81 sumoylation. Moreover, we demonstrated that Mus81 sumoylation is important for normal mitotic chromosome congression and that cells expressing SUMO-resistant Mus81 mutants displayed compromised DNA damage responses after exposure to metal toxins such as Cr(VI) and arsenic.
Keywords: DNA damage response; Mus81; arsenic; chromium; sumoylation.