Coordination of Altered DNA Repair and Damage Pathways in Arsenite-Exposed Keratinocytes

doi:10.1093/toxsci/69.2.306

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Toxicological Sciences 69, 306-316 (2002)
Copyright © 2002 by the Society of Toxicology

CARCINOGENICITY

Coordination of Altered DNA Repair and Damage Pathways in Arsenite-Exposed Keratinocytes

Hisham K. Hamadeh^*^,1^,2, Kevin J. Trouba^*^,^,1, Rupesh P. Amin^*, Cynthia A. Afshari^*^,^,3 and Dori Germolec

^* Intramural Microarray Center, Laboratory of Molecular Toxicology, and Laboratory of Molecular Carcinogenesis, National Institute of Environmental Health Sciences, NIH, Research Triangle Park, North Carolina 27709

Human exposure to arsenic, a ubiquitous and toxic environmentalpollutant, is associated with an increased incidence of skincancer. However, the mechanism(s) associated with AsIII-mediatedtoxicity and carcinogenesis at low levels of exposure remainselusive. Aberrations in cell proliferation, oxidative damage,and DNA-repair fidelity have been implicated in sodium arsenite(AsIII)-mediated carcinogenicity and toxicity, but these eventshave been examined in isolation in the majority of biologicalmodels of arsenic exposure. We hypothesized that the simultaneousinteraction of these effects may be important in arsenic-mediatedneoplasia in the skin. To evaluate this, normal human epidermalkeratinocytes (NHEK) were exposed to nontoxic doses (0.005–5µM) of AsIII and monitored for several physiological endpointsat the times when cells were harvested for gene expression measurements(1–24 h). Two-fluor cDNA microarray analyses indicatedthat AsIII treatment decreased the expression of genes associatedwith DNA repair (e.g., p53 and Damage-specific DNA-binding protein2) and increased the expression of genes indicative of the cellularresponse to oxidative stress (e.g., Superoxide dismutase 1,NAD(P)H quinone oxidoreductase, and Serine/threonine kinase25). AsIII also modulated the expression of certain transcriptsassociated with increased cell proliferation (e.g., Cyclin G1,Protein kinase C delta), oncogenes, and genes associated withcellular transformation (e.g., Gro-1 and V-yes). These observationscorrelated with measurements of cell proliferation and mitoticmeasurements as AsIII treatment resulted in a dose-dependentincrease in cellular mitoses at 24 h and an increase in cellproliferation at 48 h of exposure. Data in this manuscript demonstratesthat AsIII exposure simultaneously modulates DNA repair, cellproliferation, and redox-related gene expression in nontransformed,normal NHEK. It is anticipated that data in this report willserve as a foundation for furthering our knowledge of AsIII-regulatedgene expression in skin and other tissues and contribute toa better understanding of arsenic toxicity and carcinogenesis.

Key Words: arsenic; keratinocytes; microarray; toxicity.

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				H. Danaee, H. H. Nelson, H. Liber, J. B. Little, and K. T. Kelsey Low dose exposure to sodium arsenite synergistically interacts with UV radiation to induce mutations and alter DNA repair in human cells Mutagenesis, March 1, 2004; 19(2): 143 - 148. [Abstract] [Full Text] [PDF]

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				M. A. Rea, J. P. Gregg, Q. Qin, M. A. Phillips, and R. H. Rice Global alteration of gene expression in human keratinocytes by inorganic arsenic Carcinogenesis, April 1, 2003; 24(4): 747 - 756. [Abstract] [Full Text] [PDF]