ELECTROCHEMICAL DETECTION OF BENZO[A]PYRENE METABOLITE DNA DAMAGE : IMPLICATIONS OF NUCLEOBASE SEQUENCE AND ADDUCT STEREOCHEMISTRY

ECU Author/Contributor (non-ECU co-authors, if there are any, appear on document)
Jennifer Elizabeth Satterwhite (Creator)
Institution
East Carolina University (ECU )
Web Site: http://www.ecu.edu/lib/
Advisor
Eli G. Hvastkovs

Abstract: Xenobiotics are chemical compounds introduced to living organisms that originate outside the body. A well-studied xenobiotic is benzo[a]pyrene (BP) a polyaromatic hydrocarbon (PAH) primarily introduced into the body via cigarette smoke as well as through environmental pollution. Once inside the body BP is ultimately metabolized into electrophilic benzo[a]pyrene- 7 8-diol-9 10-epoxide (BPDE) that reacts with and damages nucleophilic biomaterial including DNA. BPDE predominately targets specific genomic guanines at sites termed hotspots. BPDE hotspot damage can result in DNA mutations that alter key amino acids in proteins that are involved in cellular regulation eventually leading to cancer. This process occurs regularly in vivo within the TP53 gene at selected codons. TP53 codes for the p53 protein which is involved in cellular apoptosis. BPDE stereochemistry and cytosine methylation within hotspot codons are also important parameters that affect the eventual mutagenesis stemming from BPDE-guanine adducts.  Traditional detection of site-specific DNA damage can be expensive and time consuming. Electrochemical approaches can remedy these drawbacks. An electrochemical sensor was developed to detect DNA damage from (±)-anti-BPDE. A double stranded DNA (dsDNA) oligomer corresponding to a known hotspot sequence in the TP53 gene was immobilized on a gold electrode and then exposed to BPDE. Voltammetric measurements were then performed in the presence of electroactive C[subscript]12H[subscript]25V[superscript]2+C[subscript]6H[subscript]12V[superscript]2+C[subscript]12H[subscript]25 (V[superscript]2+ =4 4'-bipyridyl or viologen C[subscript]12Viologen). BPDE exposure causes DNA structural changes through the formation of bulky adducts that influence the C[subscript]12Viologen-DNA interaction. These structural changes affect the resulting C[subscript]12Viologen voltammetry. At wild type TP53 sequences BPDE exposure resulted in the emergence of a positive shifted C[subscript]12Viologen redox wave at -0.37 V. At an identical sequence containing 5-methylated cytosine at the hotspot location two waves emerged at -0.37 V and -0.54 V. These redox signals were muted when DNA was exposed to alternate xenobiotics or alternate sequences were exposed to BPDE. Overall this demonstrates sequence specific detection of DNA damage at this hotspot sequence. Differences in the voltammetric response suggest that the sensor is sensitive to the adduct stereochemistry.   Additional studies were performed to monitor the effects of BP activation. Activation includes chemical oxidation of BP through association with reactive oxygen species or metabolism. Initial studies focused on the reaction of BP with DNA in the presence of hydrogen peroxide. DNA exposed to this reaction cocktail provided C[subscript]12Viologen voltammetry that was similar to that caused by BPDE exposure highlighted by a large SWV current increase at -0.37 V. Results were consistent with Fenton chemistry occurring in the damage buffer producing hydroxyl radicals from hydrogen peroxide and iron impurities. The hydroxyl radicals appear to activate BP producing a reactive species that results in BP-DNA adducts. Overall the data show a sequence-specific DNA hybridized sensor has the capability of providing hotspot and stereospecific genotoxicity information for benzo[a]pyrene derivatives. 

Additional Information

Publication
Thesis
Date: 2011
Keywords
Chemistry, Adduct stereochemistry, Benzo[a]pyrene diol epoxide, Radical, Sequence-specific, Xenobiotic
Subjects
Xenobiotics--Physiological effect
Benzopyrene--Physiological effect
DNA damage
DNA adducts
Mutation (Biology)
Carcinogens
Stereochemistry

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ELECTROCHEMICAL DETECTION OF BENZO[A]PYRENE METABOLITE DNA DAMAGE : IMPLICATIONS OF NUCLEOBASE SEQUENCE AND ADDUCT STEREOCHEMISTRYhttp://hdl.handle.net/10342/3663The described resource references, cites, or otherwise points to the related resource.