DNA instability (strand breakage, uracil misincorporation, and defective repair) is increased by folic acid depletion in human lymphocytes in vitro

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DNA instability (strand breakage, uracil misincorporation, and defective repair) is increased by folic acid depletion in human lymphocytes in vitro

S. J. Duthie^a^,1, and A. Hawdon^a

^a Rowett Research Institute, Bucksburn, Aberdeen AB21 9SB, United Kingdom

Folic acid is essential for the synthesis and repair of DNA.We report the effects of folate depletion on DNA stability innormal human lymphocytes in vitro. DNA strand breakage, uracilmisincorporation, oxidative DNA base damage, and DNA repaircapability were determined using variants of the comet assay(single cell gel electrophoresis). Lymphocyte proliferationwas measured as an indicator of normal replication. Lymphocytesisolated from human venous blood were stimulated to grow ineither complete medium containing folic acid (1 ng/ml–2µg/ml) or medium deficient in folic acid for up to 10days. Cells prepared for comet analysis were treated eitherwith the bacterial DNA repair enzyme endonuclease III to determinethe level of oxidized pyrimidines in lymphocyte DNA or withuracil DNA glycosylase, which detects misincorporated uracil.Cell number and viability were measured. Normal human lymphocyteDNA contained detectable amounts of misincorporated uracil (estimatedas approximately 1000 per cell). DNA strand breakage and uracilmisincorporation increased in a time- and concentration-dependentmanner after lymphocytes were cultured with decreasing amountsof folic acid. DNA damage was induced at folic acid concentrationsroutinely observed in plasma from the human population (1–10ng/ml). Lymphocytes cultured under folate-deficient conditionsfailed to grow normally compared with control cells. However,all lymphocytes remained viable as measured by Trypan blue exclusion.Cells deprived of folate were unable to efficiently repair oxidativeDNA damage induced by hydrogen peroxide. Inhibition of repairwas maximal after 8 days in culture. Folate supply had no effecton the level of oxidized pyrimidines in lymphocyte DNA, evenafter 10 days in culture, suggesting that folate deficiencyincreases uracil misincorporation relatively specifically. Thesein vitro results help to determine the mechanism(s) throughwhich folic acid maintains DNA stability.—Duthie, S. J.,Hawdon, A. DNA instability (strand breakage, uracil misincorporation,and defective repair) is increased by folic acid depletion inhuman lymphocytes in vitro. FASEB J. 12, 1491–1497 (1998)

Key Words: DNA breaks • misincorporated uracil • DNA repair • oxidized pyrimidines • comet assay

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