Extent of the Acidification by N7-Coordinated cis-Diammine-Platinum(II) on the Acidic Sites of Guanine Derivatives.

Coordination of two monoprotonated 2'-deoxyguanosine 5'-monophosphate species, H(dGMP)(-), via N7 to cis-(NH(2))(2)Pt(2+) gives the complex cis-(NH(2))(2)Pt(H.dGMP)(2) which is a four-protonic acid. The corresponding acidity constants were measured by potentiometric pH titrations (25; I = 0.1 M, NaNO(3)). The first two protons are released from the two -P(O)(2)(OH)(-) groups (PK(a/1)= 5.57; PK(a/2) = 6.29) and the next two protons are from the H(N1) sites of the guanine residues (PK(a/3) = 8.73; PK(a/4) = 9.48). The micro acidity constants of the various sites are also evaluated. Comparison of these data with those determined for the three-protonic H(2)(dGMP)(+/-) (PK(a/1) = 2.69 for the H(+)(N7) site; PK(a/2) = 6.29 for -P(O)(2)(OH)(-) ;PK(a/3) = 9.56 for H(N1)) shows that on average the N-7-coordinated Pt(2+) acidifies the phosphate protons by Delta pK(a) = 0.36 and the H(N1) sites by Delta pK(a) = 0.46. These results are further compared with those obtained previously for cis-(NH(2))(2)Pt(L)(2), where L = 9-ethylguanine or monoprotonated 2'-deoxycytidine 5'-monophosphate. Conclusions regarding platinated DNA are also presented.