The CYBA gene variants have been inconsistently associated with coronary heart disease (CHD) risk. A case-control study was conducted genotyping 619 subjects to explore the contribution of C242T and A640G to CHD risk in the population. A significant risk was found associated with GG homozygosity (odds ratio (OR) 2.132, 95% confidence interval, 1.113-4.085). The C242T variant was associated with CHD risk in women. Bias due to population stratification was analysed. Phenotype changes linked to these polymorphisms were evaluated. Superoxide measurements revealed higher production as indicated by the presence of the G and T alleles. Differences in mRNA concentration in heterozygous A640G samples were analysed. Higher levels of G allele mRNA compared with A allele mRNA were found. NAD(P)H oxidase p22phox sub-unit expression was evaluated with Western blot. Experiments revealed a gradual relationship in p22phox protein expression according to genotypes of the analysed variants. Those GG TT double homozygous showed increased p22phox protein expressions regarding AA CC double homozygous. This study has demonstrated increased expression and activity of the NAD(P)H system components during atherogenesis and the results could help explain the relevance of the A640G variant as a CHD marker.
Background: Thiazolidinediones exert anti-inflammatory and anti-oxidative roles and attenuate atherosclerosis by mechanisms partially independent of their metabolizing actions. High doses of angiotensin type 1 receptor (AT 1 R) blocker losartan (LST) seem to promote fat cell formation by preserving PPARγ activity.
The resistance of internal mammary artery (IMA) toward atherosclerosis is not well understood. In plasma, homocysteine (Hcy) occurs in reduced, oxidized, homocysteine thiolactone and a component of proteins as a result of N- or S-homocysteinylation. We evaluated S/N-homocysteinylated protein levels in IMA fragments of patients undergoing coronary artery bypass grafting, and whether they were affected by genetic common variants. We tested whether tHcy, Hcy-S-protein levels, genotypes or Hcy-induced methylation modifications were related to differences in iNOS, Ddah2, and eNOS gene expression between territories. A small percentage of Hcy-S-proteins were found in IMA fragments. The Mthfr C677T (rs1801133) and Pon-1 Leu55Met (rs854560) variants were associated with Hcy-S-proteins. We observed a gradual difference according to Hcy-S-protein levels in the methylation degree of the Ddah2 gene promoter in aortic, but not in IMA, fragments. No correlation between the degree of methylation and the Ddah2 gene expression levels was found in both types of analyzed fragments. Total Hcy but not Hcy-S-proteins correlated with iNOS promoter methylation. Analyzed variants seem to contribute to the in vivo Hcy binding properties to IMA. The contribution of the Hcy-derived methylation modifications to Ddah2 and eNOS gene expression seems to be tissue-specific and independent of the Ddah2/ADMA/eNOS pathway. Hcy-derived methylation modifications to the iNOS gene promoter contribute to a lesser extent to iNOS gene expression.
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