Solution Structures of a DNA Dodecamer Duplex with and without a Cisplatin 1,2-d(GG) Intrastrand Cross-Link:  Comparison with the Same DNA Duplex Containing an Oxaliplatin 1,2-d(GG) Intrastrand Cross-Link<sup>,</sup>

Wu, Yibing; Bhattacharyya, Debadeep; King, C.L.; Abraham, Irene; Huh, Sung Ho; Boysen, Gunnar; Swenberg, James A.; Temple, Brenda; Campbell, Sharon L.; Chaney, Stephen G.

doi:10.1021/bi062291f

Cited by 59 publications

(155 citation statements)

References 49 publications

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“…Our structures of the CP-and OX-GG adducts in the AGGC sequence context (17,18) were the first of Pt-GG adducts with a purine on the 5′ side of the adduct, and we did not observe a large positive slide and shift at the A5-G6 base-pair step of those adducts. Furthermore, for the T5-G6 base-pair step of the OX-TGGT adduct we observed a large positive slide, but a slightly negative shift.…”

Section: Dna Helical Parameters Common To All Pt-gg Adductsmentioning

confidence: 58%

“…Previous studies in our laboratory (17,18) (manuscript in preparation) and other laboratories (17)(18)(19)(20) have shown that imino proton resonance of the 5′G of a Pt-GG adduct is more solvent accessible than that of the 3′G. This data suggests that the DNA may be more distorted and/or flexible on the 5′ side of the adduct.…”

Section: Conformational Flexibility On the 5′ Side Of The Adductmentioning

confidence: 73%

“…We have obtained high-resolution solution NMR structures of the OX-GG adduct (17), the CP-GG adduct and undamaged DNA (18) in the AGGC sequence context and the OX-GG adduct and undamaged DNA duplex (manuscript in preparation) in the TGGT sequence context. These were the first NMR solution structures of the OX-GG adduct and the first structures of any Pt-GG adduct in a DNA sequence context with a purine on the 5′ side of the adduct.…”

Section: Cisplatin [Cp Cis-diamminedichloroplatinum(ii)] and Carboplmentioning

confidence: 99%

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Differences in Conformation and Conformational Dynamics Between Cisplatin and Oxaliplatin DNA Adducts

Chaney

Ramachandran

Sharma

et al. 2009

Platinum and Other Heavy Metal Compounds in Cancer Chemotherapy

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Some DNA damage-recognition proteins, transcription factors, mismatch repair proteins and DNA polymerases discriminate between cisplatin (CP)-and oxaliplatin (OX)-GG DNA adducts, and this is thought to help explain differences in efficacy, toxicity and mutagenicity of CP and OX. In addition, differential recognition of CP-and OX-GG adducts by some proteins has been shown to be highly dependent on the sequence context of the Pt-GG adduct. We have postulated that CP-and OX-GG adducts cause differences in the conformation and/or conformational dynamics of the DNA that provide the basis for differential protein recognition of the adducts. We have determined the NMR solution structure of CP-GG adducts, OX-GG adducts and undamaged DNA in the AGGC sequence context, and of OX-GG adducts and undamaged DNA in the TGGT sequence context. We have also employed molecular dynamics (MD) simulations to investigate the conformational dynamics of CP-GG adducts, OX-GG adducts and undamaged DNA in the AGGC and TGGA sequence contexts. These studies showed clear differences in the conformation dynamics between CP-and OX-GG adducts which correlated with the average conformational differences observed in the NMR solution structures and with conformations previously reported for the CP-GG DNA·HMG1a complex. When the conformational dynamics in both sequence contexts were compared it became evident that: (a) the patterns of hydrogen bond formation between Pt-amine-hydrogens and surrounding bases of the DNA were different for CP-and OX-GG adducts; (b) patterns of hydrogen bond formation were also influenced by the DNA sequence context of the Pt-GG adducts, and (c) differences in patterns of hydrogen bond formation were highly correlated with differences in the conformational dynamics of the adduct. Thus, we postulate that patterns of hydrogen bond formation between Pt-amine hydrogens and surrounding DNA bases are different for CP-and OX-GG adducts, and that those differences in hydrogen bond patterns result in DNA conformational differences that allow selective recognition of CP-and

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Section: Dna Helical Parameters Common To All Pt-gg Adductsmentioning

confidence: 58%

Section: Conformational Flexibility On the 5′ Side Of The Adductmentioning

confidence: 73%

Section: Cisplatin [Cp Cis-diamminedichloroplatinum(ii)] and Carboplmentioning

confidence: 99%

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Differences in Conformation and Conformational Dynamics Between Cisplatin and Oxaliplatin DNA Adducts

Chaney

Ramachandran

Sharma

et al. 2009

Platinum and Other Heavy Metal Compounds in Cancer Chemotherapy

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“…The following contacts observed in the NMR study are not seen in the x-ray structure of oxaliplatin-DNA: (i) hydrogen-bond contacts between 5'-NH 2 hydrogen of DACH with g6 phosphate backbone oxygen atom (H---O: 1.879 Å); and (ii) contacts between 3'-NH 2 and O4 atom of T8 (H---O: 2.849 Å) [18].…”

Section: Molecular Dynamics Studies On Platinum-dna Adductsmentioning

confidence: 85%

“…Platinum-DNA oligonucleotide adducts have been studied using crystallography [14][15][16], NMR [17,18], and computational approaches [19][20][21]. Crystallographic studies have previously been carried out on 12-mer DNA oligonucleotide adducts of cisplatin, oxaliplatin and JM118 (JM118 is the active metabolite of Satraplatin) by Lippard and coworkers [14][15][16].…”

Section: Molecular Dynamics Studies On Platinum-dna Adductsmentioning

confidence: 99%

Comprehensive Comparative Analysis of the Morphological Changes in a 12-mer DNA Oligonucleotide upon Platination by Cisplatin, Oxaliplatin and BNP3029 (a Substituted Cyano ligand-based Platinum analogue) using Molecular Dynamics Simulation Studies

PNV¹,

Py²,

Ar³

et al. 2014

J Phys Chem Biophys

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and (vi) increased replicative bypass (or trans-lesion synthesis).In order to develop platinum analogues that overcome the aforementioned limitations, key characteristics were evaluated in studies reported herein, and a series of platinum analogues with substituted cyano groups as the carrier ligand were synthesized [5]. In an earlier study, ab initio computational studies on cisplatin, oxaliplatin and BNP3029 (Figure 1), a representative substituted cyano ligand from our novel platinum complexes [6], were reported. Herein, we present a comprehensive comparative computational study on the geometrical and morphological changes induced by cisplatin, oxaliplatin and BNP3029 upon binding to a 12-mer DNA oligonucleotide using molecular dynamics simulations with key findings described using Kolmogorov-Smirnov based statistical analyses [7]. Materials and Methods Molecular dynamics (MD) simulation: B-DNA and platinated-DNA with cisplatin, oxaliplatin and BNP3029MD simulations were carried out using the AMBER6.0 suite of programs [8] employing the parm99 forcefield. For a better description of α/γ backbone angle conformers in DNA, the parm99 forcefield was modified with the inclusion of parmbsc0 forcefield [9] AbstractCisplatin is an important anti-cancer agent widely used in the clinic; however, it has several notable limitations. To develop novel platinum analogues, key characteristics were considered that may result in more effective platinum analogues. In this study, we present comprehensive molecular dynamics simulation studies using a 12-mer DNA (5'-CCTCTggTCTCC-3', gg= the site of platination) oligonucleotide which was platinated with cisplatin (1), oxaliplatin_1R_2R (2), and BNP3029 (3, a novel substituted cyano platinum analogue, PtCl 2 [N≡C(CH 2 ) 3 (C 6 H 5 )] 2 ), and analyzed the large data output using the Kolmogorov-Smirnov statistical analyses. In summary, data indicated that BNP3029-DNA had less A-like DNA morphology in comparison to cisplatin-DNA and oxaliplatin-DNA thus maintaining a more B-like DNA form. BNP3029 demonstrated more potent cytotoxic activity, relative to cisplatin and oxaliplatin, in a variety of human cancer cell lines, including several platinum-resistant cell lines. 5'-TCTCCGGTCTCC-3' DNA sequence for B-DNA was used for each MD run. In the case of platinated-DNA, N7 atoms of the two guanines (gg) attach to platinum atom forming the platinum-DNA adduct (5'-TCTCCggTCTCC-3'). Published parameters for terms involving platinum with DNA bases (such as bond, angle and dihedral) were employed [10]. The only deviation from the published parameters was the use of 1.8 Å vdW radius for platinum in the current study based on the recommendation of smaller radius for platinum [11] compared to the 2.2 Å radius used in reference 10. J Phys Chem Total number of MD runsFor B-DNA, five separate runs were performed starting from the same topology and coordinates for the randomly generated initial velocities by using five different seeds. For four of the seeds, MD runs were performed for a period of 10 n...

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2012

NMR of Biomolecules

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Solution Structures of a DNA Dodecamer Duplex with and without a Cisplatin 1,2-d(GG) Intrastrand Cross-Link: Comparison with the Same DNA Duplex Containing an Oxaliplatin 1,2-d(GG) Intrastrand Cross-Link^,

Cited by 59 publications

References 49 publications

Differences in Conformation and Conformational Dynamics Between Cisplatin and Oxaliplatin DNA Adducts

Differences in Conformation and Conformational Dynamics Between Cisplatin and Oxaliplatin DNA Adducts

Comprehensive Comparative Analysis of the Morphological Changes in a 12-mer DNA Oligonucleotide upon Platination by Cisplatin, Oxaliplatin and BNP3029 (a Substituted Cyano ligand-based Platinum analogue) using Molecular Dynamics Simulation Studies

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Solution Structures of a DNA Dodecamer Duplex with and without a Cisplatin 1,2-d(GG) Intrastrand Cross-Link: Comparison with the Same DNA Duplex Containing an Oxaliplatin 1,2-d(GG) Intrastrand Cross-Link,

Cited by 59 publications

References 49 publications

Differences in Conformation and Conformational Dynamics Between Cisplatin and Oxaliplatin DNA Adducts

Differences in Conformation and Conformational Dynamics Between Cisplatin and Oxaliplatin DNA Adducts

Comprehensive Comparative Analysis of the Morphological Changes in a 12-mer DNA Oligonucleotide upon Platination by Cisplatin, Oxaliplatin and BNP3029 (a Substituted Cyano ligand-based Platinum analogue) using Molecular Dynamics Simulation Studies

References

Contact Info

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About

Solution Structures of a DNA Dodecamer Duplex with and without a Cisplatin 1,2-d(GG) Intrastrand Cross-Link: Comparison with the Same DNA Duplex Containing an Oxaliplatin 1,2-d(GG) Intrastrand Cross-Link^,