In vitro folate deficiency induces deoxynucleotide pool imbalance, apoptosis, an mutagenesis in Chinese hamster ovary cells

The genetic and epigenetic effects of nutritional folate deficiency were studied in two Chinese hamster ovary (CHO) cell lines. The CHO-AA8 cell line (hemizygous at the aprt locus) and CHO-UV5 (DNA repair-deficient mutant of AA8) were cultured in Ham's F-12 medium or in custom-prepared Ham'...

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Bibliographic Details
Published in:Cancer research (Chicago, Ill.) Ill.), 1994-10, Vol.54 (19), p.5075-5080
Main Authors: JAMES, S. J, BASNAKIAN, A. G, MILLER, B. J
Format: Article
Language:English
Subjects:
Animals
Apoptosis
Biological and medical sciences
Cell Division
Cell physiology
Cell transformation and carcinogenesis. Action of oncogenes and antioncogenes
CHO Cells
Cricetinae
Deoxyribonucleotides - metabolism
DNA - metabolism
DNA Repair
Folic Acid Deficiency - genetics
Folic Acid Deficiency - metabolism
Folic Acid Deficiency - pathology
Fundamental and applied biological sciences. Psychology
Molecular and cellular biology
Mutagenesis
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Summary:The genetic and epigenetic effects of nutritional folate deficiency were studied in two Chinese hamster ovary (CHO) cell lines. The CHO-AA8 cell line (hemizygous at the aprt locus) and CHO-UV5 (DNA repair-deficient mutant of AA8) were cultured in Ham's F-12 medium or in custom-prepared Ham's F-12 medium lacking folic acid, thymidine, and hypoxanthine. Cells cultured acutely in the folate deficient medium exhibited initial growth arrest, followed by massive cell death and DNA fragmentation into nucleosomal multimers characteristic of apoptosis. Although prolonged culture in the folate deficient medium was cytostatic and lethal to the majority cells, minor subpopulations in both cell lines failed to initiate cell death, exhibited phenotypic abnormalities, and adapted a selective growth advantage under marginal folate conditions. These "resistant" clones exhibited major alterations in deoxynucleotide pools associated with an increase in mutant frequency at the aprt locus as detected by resistance to cytotoxicity in 8-azaadenosine. The mutation frequency in the DNA repair-deficient CHO-UV5 cells was approximately 100-fold greater than that in the parental AA8 clones, underscoring the importance of DNA repair under conditions of folate deficiency and nucleotide pool imbalance. The enhanced mutation frequency in the DNA repair-competent folate-deficient CHO-AA8 cells suggests that DNA repair activity is less effective under folate-deficient conditions. These results add to the accumulating clinical and experimental evidence relating chronic folate deficiency to genomic instability and carcinogenesis.
ISSN:0008-5472
1538-7445