Minor Groove Binding of SN6999 to an Alkylated DNA: Molecular Structure of d(CGC[e6G]AATTCGCG)-SN6999 Complex

Yi Gui Gao, M. Sriram, William A. Denny, A. H.J. Wang

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29 Citations (Scopus)

Abstract

The interaction between a potent synthetic antitumor and antiviral minor groove binding drug 1-methyl-4-[4-[4-(4-(1-methylquinolinium)amino)benzamido]anilino]pyridinium dichloride (SN6999) and an alkylated DNA d(CGC [e6G] AATTCGCG) dodecamer has been studied by X-ray crystallography. The complex forms a new crystal lattice in the space group P212121 with unit cell dimensions of a = 28.48 Å, b = 36.11 Å, and c = 69.60 Å. The structure has been solved by the molecular replacement method and refined to an R-factor of 17.0% at ∼2.5 Å resolution using 1618 reflections. In the complex, the SN6999 covers almost six base pairs in the narrow minor groove with the 1-methylquinolinium (Q) ring near T8-A17 and the 1-methylpyridinium (P) ring near the C3-G22 base pair. The central benzamido (BQ) and anilino (BP) rings are essentially coplanar, with the Q and P rings having large dihedral angles of 38° and 39°, respectively, to the plane of BQ/BP. There is only one direct hydrogen bond between the amide NH of SN6999 to T20O2 of DNA. The drug-DNA interaction is stabilized by stacking interaction of sugar oxygens from T20O4′ to BQ and C21O4′ to BP. There is charge-induced dipole interaction between the positively charged nitrogen atom of 1-methylquinolinium with C9O4′ and that of 1-methylpyridinium with G22O4′. The crystal structure of the complex can be used to explain the NMR results. SN6999 lacks the crescent shape observed in other minor groove binding drugs and distorts the DNA duplex upon binding. The complex packs in the lattice using the G-N2:G-N3 interlocking base pairs at both ends of the helix. As in earlier cases, the two independent e6G:C base pairs adopt different base pairing schemes. The e6G16:C9 base pair adopts a previously observed bifurcated configuration involving three-centered hydrogen bonds and is similar to a Watson-Crick pairing. In contrast, the e6G4:C21 base pair adopts a novel “reverse wobble” configuration with C21 being pushed toward the major groove side. The ethyl group is in the proximal orientation (to N7) in both base pairs. Taken together with the observations found in the same DNA complexed to Hoechst 33258, Hoechst 33342, and netropsin from different crystal lattices, the results suggest that the e6G:C base pairing is weak and polymorphic when compared to a normal G:C base pair and the DNA duplex containing this lesion is readily distorted.

Original languageEnglish
Pages (from-to)9639-9648
Number of pages10
JournalBiochemistry
Volume32
Issue number37
DOIs
Publication statusPublished - 1993
Externally publishedYes

ASJC Scopus subject areas

  • Biochemistry

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