Zinc Deficiency Induces Oxidative DNA Damage and Increases P53 Expression in Human Lung Fibroblasts

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Nutrient-Gene Interactions

Zinc Deficiency Induces Oxidative DNA Damage and Increases P53 Expression in Human Lung Fibroblasts

Emily Ho, Chantal Courtemanche and Bruce N. Ames³

University of California, Berkeley, CA 94720 and Children’s Hospital Oakland Research Institute, Oakland, CA 94609

³To whom correspondence should be addressed. E-mail: bames{at}chori.org.

Poor zinc nutrition may be an important risk factor in oxidantrelease and the development of DNA damage and cancer. Approximately10% of the United States population ingests <50% of the recommendeddaily allowance for zinc, a cofactor in proteins involved inantioxidant defenses, electron transport, DNA repair and p53protein expression. This study examined the effects of zincdeficiency on oxidative stress, DNA damage and the expressionof DNA repair enzymes in primary human lung fibroblasts by theuse of DNA microarrays and functional assays. Cellular zincwas depleted by 1) growing cells in a zinc-deficient mediumand 2) exposuring cells to an intracellular zinc chelator, N,N,N',N'-tetrakis-(2-pyridylmethyl)ethylenediamine.Array data revealed upregulation of genes involved in oxidativestress and DNA damage/repair and downregulation of other DNArepair genes. Zinc deficiency in cells caused an increase inoxidant production (dichlorofluoroscein fluorescence) and asignificant induction of single-strand breaks (Comet assay)and p53 protein expression (Western blot analysis). Thus, zincdeficiency not only caused oxidative stress and DNA damage,but also compromised the cells’ ability to repair thisdamage. Zinc adequacy appears to be necessary for maintainingDNA integrity and may be important in the prevention of DNAdamage and cancer.

KEY WORDS: • zinc • DNA damage • microarray • p53

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