Objective: Methylene-tetrahydrofolate reductase (MTHFR) is involved in adapting metabolism to environmental challenges by various mechanisms, including the control of gene expression by epigenetic and post-translational changes of transcription factors. Though a metabolic syndrome candidate gene, association studies of its common polymorphism rs1801133 (MTHFR-Ala222Val) remain inconclusive with important ethnic differences, and the effect on disease progression was not addressed.
Methods: 307 middle-aged metabolic syndrome patients in a central Romanian hospital setting were investigated metabolically, and genotyped by PCR-RFLP. Disease progression was assessed by the age of onset of metabolic components, as well as development of non-alcoholic fatty liver disease and atherosclerotic complications.
Results: The minor allele frequency of rs1801133 was 30.13%. Metabolic parameters showed no statistically significant differences according to genotype, but variant carriers developed dysglycemia and dyslipidemia earlier (53.28±10.8 vs 59.44±9.31 years, p<0.05 and 58.57±11.31 vs 64.72±10.6 years, p<0.1).While the polymorphism did not influence hepatic complications, an inverse association was found for manifest atherosclerosis (OR=0.49, p=0.006, 95%CI:0.29-0.81), which may be folate-status dependent, and needs further investigations. Simultaneous analysis with transcription factor polymorphisms (rs1801282, rs8192678) showed that the more protective genotypes were present the later metabolic disturbances developed, and in the presence of the other two variants the apparent protective cardiovascular effect disappeared.
Conclusions: The common functional polymorphism rs1801133 may influence metabolic syndrome progression, the age of onset of components and development of atherosclerotic complications. Besides simple additive effects, complex mitigating and aggravating variant interactions may exist, and the protective or predisposing outcome may depend on modifiable environmental factors.
Tag Archives: genetic polymorphism
Genetic Polymorphism of GSTP1 Gene and Lung Cancer Risk in Northern Romania
Background: Glutathione S transferase P1 – an important member of the xenobiotic encoding enzymes, might contribute to the variability in individual susceptibility to lung cancer and may be important in exposure to carcinogens and therefore lung cancer development in smokers.
Objectives: This is a cross-sectional, randomized, case-control study for the evaluation of the frequency of GSTP1 alleles among patients with lung cancer.
Subjects and methods: The study included 108 cases of lung cancer diagnosed patients (histopathological examination), and 123 healthy unrelated controls. GSTP1 genotyping was carried out using PCR amplification of relevant gene fragment, followed by restriction enzyme digestion. Detection of GSTP1 alleles was determined by analysis of resulting restriction fragment length polymorphism (RFLP), followed by gel electrophoresis.
Results: Molecular analysis revealed an increased frequency of GSTP1 mutant genotype in the study group compared to the control group (X2 = 0.133, p = 0.049, OR = 1.726, CI = 1–2.977). It appears that the effect of the GSTP1 mutant allele may vary according to histological subtype. The polymorphic I105V allele of GSTP1 gene was associated with an increased risk of lung adenocarcinoma.
Conclusions: GSTP1 polymorphism may be associated with increased risk to lung cancer and the homozygous Ile105Val genotype was found at a significantly higher frequency in the adenocarcinoma group.