Duthie S J, Narayanan S, Blum S, Pirie L, Brand G M
Rowett Research Institute, Bucksburn, Aberdeen AB21 9SB, UK.
Nutr Cancer. 2000;37(2):245-51. doi: 10.1207/S15327914NC372_18.
Epidemiological studies have indicated that folic acid protects against a variety of cancers, particularly cancer of the colorectum. Folate is essential for efficient DNA synthesis and repair. Moreover, folate can affect cellular S-adenosylmethionine levels, which regulate DNA methylation and control gene expression. We have investigated the mechanisms through which folate affects DNA stability in immortalized normal human colonocytes (HCEC). DNA strand breakage, uracil misincorporation, and DNA repair, in response to oxidative and alkylation damage, were determined in folate-sufficient and folate-deficient colonocytes by single cell gel electrophoresis. In addition, methyl incorporation into genomic DNA was measured using the bacterial enzyme Sss1 methylase. Cultured human colonocyte DNA contained endogenous strand breaks and uracil. Folate deficiency significantly increased strand breakage and uracil misincorporation in these cells. This negative effect on DNA stability was concentration dependent at levels usually found in human plasma (1-10 ng/ml). DNA methylation was decreased in HCEC grown in the absence of folate. Conversely, hypomethylation was not concentration dependent. Folate deficiency impaired the ability of HCEC to repair oxidative and alkylation damage. These results demonstrate that folic acid modulates DNA repair, DNA strand breakage, and uracil misincorporation in immortalized human colonocytes and that folate deficiency substantially decreases DNA stability in these cells.
流行病学研究表明,叶酸可预防多种癌症,尤其是结直肠癌。叶酸对于高效的DNA合成和修复至关重要。此外,叶酸可影响细胞内S-腺苷甲硫氨酸水平,该物质可调节DNA甲基化并控制基因表达。我们研究了叶酸影响永生化正常人结肠细胞(HCEC)中DNA稳定性的机制。通过单细胞凝胶电泳测定了叶酸充足和叶酸缺乏的结肠细胞中,DNA链断裂、尿嘧啶错配掺入以及对氧化和烷基化损伤的DNA修复情况。此外,使用细菌酶SssI甲基转移酶测量了基因组DNA中的甲基掺入情况。培养的人结肠细胞DNA含有内源性链断裂和尿嘧啶。叶酸缺乏显著增加了这些细胞中的链断裂和尿嘧啶错配掺入。在通常在人血浆中发现的水平(1-10 ng/ml)下,这种对DNA稳定性的负面影响呈浓度依赖性。在缺乏叶酸的情况下生长的HCEC中,DNA甲基化降低。相反,低甲基化不具有浓度依赖性。叶酸缺乏损害了HCEC修复氧化和烷基化损伤的能力。这些结果表明,叶酸可调节永生化人结肠细胞中的DNA修复、DNA链断裂和尿嘧啶错配掺入,并且叶酸缺乏会显著降低这些细胞中的DNA稳定性。
