Methyl group metabolism gene polymorphisms and susceptibility to prostatic carcinoma.

BACKGROUND: Alterations of DNA methylation are very frequent in prostatic carcinoma. A possible cause underlying altered DNA methylation could be an insufficient level of S-adenosylmethionine as a consequence of nutritional imbalances or of weaker alleles of genes for its synthesis, i.e., encoding methylene-tetrahydrofolate reductase (MTHFR), methionine synthase (MS), and beta-cystathione synthetase (CBS). Therefore, homozygosity or heterozygosity for such weaker alleles may underlie susceptibility to prostatic carcinoma. METHODS: The distribution of the two most frequent MTHFR, MS, and CBS alleles was determined in 132 prostatic carcinoma patients and 150 population controls by restriction fragment length polymorphism-(RFLP) PCR. RESULTS: In the controls, a Hardy-Weinberg equilibrium was observed for each allele pair. No significant differences were observed with respect to age or gender. No significant differences for single genes or combinations were found between prostatic carcinoma patients and controls, although the MTHFR Val allele was slightly overrepresented among the tumor patients. Neither did the allele distribution significantly differ among the prostatic carcinoma patients stratified according to age, clinical stage, or presence of metastases. However, the MTHFR Val allele tended to be associated with higher tumor grade. CONCLUSIONS: In general, the data do not support the hypothesis that weaker alleles in methyl group metabolism genes constitute a major factor in the high prevalence of DNA methylation alterations found in prostatic carcinoma. However, a potential association with the MTHFR genotype deserves further study.

Interaction between smoking, GSTM1 deletion and colorectal cancer: results from the GSEC study.

Cigarette smoking has inconsistently been associated with an increased risk of colorectal cancer. One of the enzymes responsible for the detoxification of the carcinogenic compounds present in tobacco smoke is glutathione S-transferase-mu (GST-mu). The gene that codes for this enzyme is GSTM1. In this study, we evaluated the associations and interaction between GSTM1 deletion, smoking behaviour and the development of colorectal cancer. We performed a pooled analysis within the International Collaborative Study on Genetic Susceptibility to Environmental Carcinogens (GSEC). We selected six studies on colorectal cancer, including 1130 cases and 2519 controls, and restricted our analyses to Caucasians because the number of patients from other races was too limited. In addition we performed a meta-analysis including the studies from the GSEC database and other studies identified on MEDLINE on the same subject. The prevalence of the GSTM1 null genotype was within the range reported in other studies: 51.8% of the cases had the GSTM1 null genotype versus 56.6% of the controls. No significant association between the GSTM1 null genotype and colorectal cancer was found (odds ratio 0.92, 95% confidence interval 0.73-1.14). Our results suggest a possible positive association between lack of the GST-mu enzyme and colorectal cancer for non-smoking women (odds ratio 1.47, 95% confidence interval 0.80-2.70). There was no interaction between the effects of smoking and GSTM1 genotype on colorectal cancer risk in men and women (chi2=0.007, p=0.97). Our findings do not support an association between the GSTM1 null genotype and colorectal cancer. In addition, we did not find any modification of the smoking-induced colorectal cancer risk by GSTM1 genotype