143359-20-0Relevant articles and documents
Simplified method for the isolation of thermally labile drug-DNA adducts: Characterization of chlorambucil and carzinophilin/azinomycin B alkylation products
Salvati, Mark E.,Moran, Edmund J.,Armstrong, Robert W.
, p. 3711 - 3714 (1992)
A simple and rapid method has been developed for the isolation of thermally labile DNA alkylation products. Use of calf thymus DNA in combination with size exclusion filtration provides good yields >40% of chlorambucil-guanine adducts. Application of this
Reactions of N,N-Bis(2-chloroethyl)-p-aminophenylbutyric acid (chlorambucil) with 2′-deoxyguanosine
Haapala,Hakala,Jokipelto,Vilpo,Hovinen
, p. 988 - 995 (2007/10/03)
N,N-Bis(2-chloroethyl)-p-aminophenylbutyric acid (chlorambucil, 1) was allowed to react in the presence of 2′-deoxyguanosine (16 mM) at physiological pH (cacodylic acid, 50% base), and the reactions were followed by HPLC/MS/MS techniques. Although the predominant reaction observed was chlorambucil hydrolysis, ca. 24% of 1 reacted with different heteroatoms of the nucleoside. As expected, the principal site of 2′-deoxyguanosine alkylation was N7. Alkylation of N7 caused spontaneous depurination, and N-(7-guaninylethyl)-N-hydroxyethyl-p-aminophenylbutyric acid (5) and the corresponding N7,N7-bis-adduct (6) were the major stable dGuo derivatives. Also several other adducts were detected and tentatively identified by means of MS/MS and UV. From them, the O6-, N1-, N2-, and O5′-derivatives can be biologically significant. Our results shed new light on DNA modifications caused by chlorambucil, which is an important chemotherapeutic drug and a known carcinogen.
