Monoclonal antibodies to DNA modified with cis- or trans-diamminedichloroplatinum(II).

AUTOR(ES)

Sundquist, W I

RESUMO

Murine monoclonal antibodies that bind selectively to adducts formed on DNA by the antitumor drug cis-diamminedichloroplatinum(II), cis-DDP, or to the chemotherapeutically inactive trans isomer trans-DDP were elicited by immunization with calf thymus DNA modified with either cis- or trans-DDP at ratios of bound platinum per nucleotide, (D/N)b, of 0.06-0.08. The binding of two monoclonal antibodies to cis-DDP-modified DNA was competitively inhibited (50% control) in an enzyme-linked immunosorbent assay (ELISA) by 4-6 nM concentrations (600-900 fmol) of cis-DDP bound to DNA, (D/N)b = 0.031. Similar concentrations (4-6 nM) of cis-DDP-modified poly(dG).poly(dC) also inhibited antibody binding, whereas higher concentrations (17-36 nM) of cis-DDP-modified poly[d(AG)].poly[d(TC)] were required for inhibition. Adducts formed by cis-DDP on other synthetic DNA polymers did not inhibit antibody binding to cis-DDP-DNA. The biologically active compounds [Pt(en)Cl2], [Pt(dach)Cl2], and [Pt(NH3)2(cbdca)] (carboplatin) (where en is ethylenediamine, dach is 1,2-diaminocyclohexane, and cbdca is cyclobutane-1,1-dicarboxylate) all formed antibody-detectable adducts on DNA, whereas the inactive platinum complexes trans-DDP and [Pt(dien)Cl]Cl (dien, diethylenetriamine) did not. The monoclonal antibodies therefore recognize a bifunctional Pt-DNA adduct with cis stereochemistry in which platinum is coordinated by two adjacent guanines or, to a lesser degree, by adjacent adenine and guanine. A monoclonal antibody raised against trans-DDP-DNA was competitively inhibited in an ELISA by 40 nM trans-DDP bound to DNA, (D/N)b = 0.022. This antibody crossreacted with unmodified, denatured DNA. Its binding to trans-DDP-DNA was selectively inhibited by trans-DDP-modified poly[d(GT)].poly[d(CA)] (50% inhibition at 1 nM bound trans-DDP). The recognition of cis- or trans-DDP-modified DNAs by monoclonal antibodies thus parallels the known modes of DNA binding of these compounds and may correlate with their biological activities.

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