Intercalation of Daunomycin into Stacked DNA Base Pairs. DFT Study of an Anticancer Drug

Intercalation of Daunomycin into Stacked DNA Base Pairs. DFT Study of an Anticancer Drug

We have computationally studied the intercalation of the antitumor drug daunomycin into six stacks of Watson-Crick DNA base pairs i.e., AT-AT, AT-TA, GC-AT, CG-TA, GC-GC, GC-CG) using density functional theory (DFT). The proton affinity of the DNA intercalater daunomycin in water was computed to be...

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Bibliographic Details
Published in:Journal of biomolecular structure & dynamics Vol. 26; no. 1; pp. 115 - 129
Main Authors: Barone, Giampaolo, Guerra, Célia Fonseca, Gambino, Noemi, Silvestri, Arturo, Lauria, Antonino, Almerico, Anna Maria, Bickelhaupt, F. Matthias
Format: Journal Article
Language:English
Published: England Taylor & Francis Group 01-08-2008
Subjects:
Antibiotics, Antineoplastic - chemistry
Antibiotics, Antineoplastic - metabolism
Base Pairing
Bond energy
Daunomycin
Daunorubicin - chemistry
Daunorubicin - metabolism
Density functional calculations
DNA - chemistry
DNA - metabolism
Hydrogen Bonding
Intercalating Agents - chemistry
Intercalating Agents - metabolism
Intercalations
Models, Chemical
Models, Molecular
Nucleic Acid Conformation
Nucleobases
Stacking interactions
Thermodynamics
Water - chemistry
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Summary:We have computationally studied the intercalation of the antitumor drug daunomycin into six stacks of Watson-Crick DNA base pairs i.e., AT-AT, AT-TA, GC-AT, CG-TA, GC-GC, GC-CG) using density functional theory (DFT). The proton affinity of the DNA intercalater daunomycin in water was computed to be 159.2 kcal/mol at BP86/TZ2P, which is in line with the experimental observation that daunomycin is protonated under physiological conditions. The intercalation interaction of protonated daunomycin with two stacked DNA base pairs was studied through a hybrid approach in which intercalation is treated at LDA/TZP while the molecular structure of daunomycin and hydrogen-bonded Watson-Crick pairs is computed at BP86/TZ2P We find that the affinity of the drug for the six considered base pair dimers decreases in the order AT-AT > AT-TA > GC-AT > GC-TA > GC-CG > GC-GC, in excellent agreement with experimental data on the thermodynamics of the interaction between daunomycin and synthetic polynucleotides in aqueous solution. Our analyses show that the overall stability of the intercalation complexes comes mainly from π-π stacking but an important contribution to the computed and experimentally observed sequence specificity comes from hydrogen bonding between daunomycin and hetero atoms in the minor groove of AT base pairs.
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ISSN:0739-1102
1538-0254
DOI:10.1080/07391102.2008.10507229