Abstract

Structural elucidation of DNA adducts is crucial to understanding the initiation of carcinogenesis and ultimately in designing preventative strategies. Arylamine carcinogens are implicated in the etiology of various human cancers. We hypothesize that: (a) arylamine-adducts in DNA exist in two prototype conformations, a base-displaced """"""""stacked"""""""" (S) and an external binding normal """"""""B-type"""""""" 03); (b) a delicate S/B conformeric balance is modulated by both the base sequence surrounding the adduct site and the nature of specific interactions in the active sites of replication and repair enzymes; and (c) the resulting conformational heterogeneity plays a critical role in determining the mutagenic outcomes. We will use the well-documented aminofluorene (AF)-induced S/B heterogeneity to correlate their propensity to undergo repair and replication. This will be accomplished by the use of 19FNMR coupled with fluorine-labeled AF-modified DNA in various sequence contexts, with or without the presence of a polymerase.
Specific aims are to (1) measure the S/B ratios of double or single/double stranded duplexes in various sequence contexts; (2) to measure the S/B ratios of deletion duplexes, whose 3'-next nearest flanking sequence to the lesion is altered; (3) to measure the S/B ratios of 18/9-mer template-primers, whose 5'-flanking sequences are varied, in the presence of the polymerase Klenow Fragment (KFexo-); and (4) to conduct site-specific mutagenesis of the sequences used in Aims 1 and 3. Circular dichroism and melting experiments will also be conducted to define further the adduct structure. The polymerase experiments proposed in Aim 3, in particular, examine the adduct conformation at the replication fork within the active site of a polymerase and may provide,for the first time, a systematic basis for conducting conformation- and adduct-specific mutagenesis in a simulated biological environment. The proposed research will introduce 19F NMR as a powerful structural biology tool in investigating the mechanisms of arylamine mutagenesis.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA098296-04
Application #
7106353
Study Section
Chemical Pathology Study Section (CPA)
Program Officer
Knowlton, John R
Project Start
2003-08-01
Project End
2008-07-31
Budget Start
2006-08-01
Budget End
2008-07-31
Support Year
4
Fiscal Year
2006
Total Cost
$271,202
Indirect Cost

  Institution

Name
University of Rhode Island
Department
Pharmacology
Type
Schools of Pharmacy
DUNS #
144017188
City
Kingston
State
RI
Country
United States
Zip Code
02881

  Publications

Cai, Ang; Wilson, Katie A; Patnaik, Satyakam et al. (2018) DNA base sequence effects on bulky lesion-induced conformational heterogeneity during DNA replication. Nucleic Acids Res 46:6356-6370
Tang, Qi; Cai, Ang; Bian, Ke et al. (2017) Characterization of Byproducts from Chemical Syntheses of Oligonucleotides Containing 1-Methyladenine and 3-Methylcytosine. ACS Omega 2:8205-8212
Hilton, Benjamin; Gopal, Sathyaraj; Xu, Lifang et al. (2016) Dissociation Dynamics of XPC-RAD23B from Damaged DNA Is a Determining Factor of NER Efficiency. PLoS One 11:e0157784
Xu, Lifang; Cho, Bongsup P (2016) Conformational Insights into the Mechanism of Acetylaminofluorene-dG-Induced Frameshift Mutations in the NarI Mutational Hotspot. Chem Res Toxicol 29:213-26
Giulietti, Jennifer M; Tate, Patrick M; Cai, Ang et al. (2016) DNA-binding studies of the natural ?-carboline eudistomin U. Bioorg Med Chem Lett 26:4705-4708
Ma, Hang; Wang, Ling; Niesen, Daniel B et al. (2015) Structure Activity Related, Mechanistic, and Modeling Studies of Gallotannins containing a Glucitol-Core and ?-Glucosidase. RSC Adv 5:107904-107915
Xu, Lifang; Vaidyanathan, V G; Cho, Bongsup P (2014) Real-time surface plasmon resonance study of biomolecular interactions between polymerase and bulky mutagenic DNA lesions. Chem Res Toxicol 27:1796-807
Jain, Vipin; Vaidyanathan, Vaidyanathan G; Patnaik, Satyakam et al. (2014) Conformational insights into the lesion and sequence effects for arylamine-induced translesion DNA synthesis: 19F NMR, surface plasmon resonance, and primer kinetic studies. Biochemistry 53:4059-71
Jain, Vipin; Hilton, Benjamin; Lin, Bin et al. (2013) Structural and thermodynamic insight into Escherichia coli UvrABC-mediated incision of cluster diacetylaminofluorene adducts on the NarI sequence. Chem Res Toxicol 26:1251-62
Jain, Vipin; Hilton, Benjamin; Lin, Bin et al. (2013) Unusual sequence effects on nucleotide excision repair of arylamine lesions: DNA bending/distortion as a primary recognition factor. Nucleic Acids Res 41:869-80

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