• Title of article

    Uracil misincorporation, DNA strand breaks, and gene amplification are associated with tumorigenic cell transformation in folate deficient/repleted Chinese hamster ovary cells

  • Author/Authors

    Melnyk، نويسنده , , S and Pogribna، نويسنده , , M and Miller، نويسنده , , B.J and Basnakian، نويسنده , , A.G and Pogribny، نويسنده , , I.P and James، نويسنده , , S.J، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    10
  • From page
    35
  • To page
    44
  • Abstract
    Clinical and experimental evidence has linked nutritional folic acid status to both anti- and procarcinogenic activity. Folate supplementation of normal cells appears to have a protective effect; however, folate supplementation of initiated cells may promote neoplastic progression. Given these considerations, the present series of experiments examines alterations in DNA metabolism and cumulative DNA lesions using an in vitro model of folate deprivation and repletion. DNA repair-deficient CHO-UV5 cells were cultured in Hamʹs F-12 medium or in custom-prepared Hamʹs F-12 medium lacking in folic acid, thymidine and hypoxanthine for a period of 18 days without cell passage. The results indicated that progressive folate and nucleotide depletion leads to a significant increase in the ratio of dUTP/dTTP and to the misincorporation of uracil into DNA. These alterations were accompanied by growth inhibition, DNA strand breaks, abasic sites and phenotypic abnormalities. After 14 days in culture, there was significant increase in gene amplification potential in the chronically folate-deficient cells, but no significant increase in anchorage-independent growth or in neoplastic transformation. Acute folate repletion of the deficient cells was used as a proliferative stimulus under conditions of dNTP pool imbalance and multiple lesions in DNA. A further increase in gene amplification was accompanied by anchorage-independent growth and neoplastic cell transformation as evidenced by aggressive tumor growth in Balb/c nu/nu mice. Using a sensitive in vitro model system, these results emphasize the essentiality of folic acid for de novo nucleotide synthesis and the integrity of the DNA. However, the in vivo relevance, especially in terms of tumorigenic potential, is not clear.
  • Keywords
    uracil , Deoxynucleotides , DNA methylation , Mutation , Folate deficiency , Cell transformation , gene amplification
  • Journal title
    Cancer Letters
  • Serial Year
    1999
  • Journal title
    Cancer Letters
  • Record number

    1800720