Isolation and Characterization of Proteins Cross-linked to DNA by the Antitumor Agent Methylene Dimethanesulfonate and its Hydrolytic Product Formaldehyde

This study attempted to characterize proteins crosslinked to DNA of Yoshida lymphosarcoma cells treated with methylene dimethanesulfonate (MDMS) and its hydrolytic products formaldehyde (HCHO) and methanesulfonic acid (MSA). MDMS and HCHO treatments produced a similar extent and type of DNA-protein cross-linking in Yoshida lymphosarcoma cells. All five major histones (H1, H2a, H2b, H3, and H4) were among the nuclear proteins cross-linked to DNA. Certain discrete differences were also apparent in these studies. MDMS cross-linked proteins of 29 and 48 kDa to DNA that were not observed following HCHO treatment alone, and HCHO cross-linked a 26-kDa protein to DNA that was not observed following MDMS treatment. Because semicarbazide prevented all MDMS-induced DNA-protein cross-linking, HCHO must be the component responsible for this lesion. The 26-kDa protein has been identified as an H4-H2b dimer. The formation of this dimer is particularly sensitive to MSA release on hydrolysis of MDMS because, in the presence of MSA, HCHO preferentially cross-linked an H2a-H2b dimer and a 48-kDa non-histone protein to DNA. Differences in DNA-protein cross-linking between these two agents are therefore proposed to arise from discrete changes in chromatin structure induced directly by MSA release.