Immunodetection of DNA-protein crosslinks by slot blotting.

Ultraviolet light, formaldehyde, cis-diamminedichloroplatinum(II), chromate (Cr6+), or chromium chloride (Cr3+) under the appropriate conditions caused the formation of DNA-protein crosslinks in intact Chinese hamster ovary (CHO) cells or in cell nuclei. The DNA-protein crosslinks were isolated, applied to nitrocellulose filters, and reacted with antibodies to nuclear proteins. An antiserum to a 97-kD nuclear protein detected p97-DNA complexes in CHO nuclei and cell cultures treated with UV light, cis-Pt and formaldehyde. Exposure to Cr3+ induced p97-DNA crosslinks only in isolated nuclei, while chromate (Cr6+) treatment resulted in significant crosslink formation only in intact cells. Analysis of western blots with the p97 antiserum indicated that crosslinks induced by formaldehyde or ultraviolet light required DNAase I digestion of DNA for migration of the p97 complexes into the gel. In contrast, the 97-kD antigen from the metal-induced crosslinks was released from DNA and resolved in the gel when 2-mercaptoethanol was included in the electrophoresis sample buffer. Assay of slot blots with an antihistone monoclonal antibody indicated that formaldehyde, but not cis-Pt or chromate, crosslinked histones to the DNA. These results illustrate the utility of immuno-slot blots in detecting and characterizing DNA-protein complexes induced by diverse chemical and physical agents.