Evaluation of the interaction between endothelial nitric oxide synthase polymorphism and the systemic nitric oxide bioavailability in mercury exposed subjects

The mercury (Hg) exposure has been target of toxicological studies due the high potential of damage to human health. In the Amazon region the first studies reported the occupational exposure due the use in gold mining, however, recently become relevant the studies about the environment exposure due the fish intake in the riparian population. Several studies have been concentrated in the riparian community in the Tapajós river region, where the fish consumption is frequent and the methylmercury content in fish is responsible to exposure of this people. The MeHg presents toxic effects in the cardiovascular system and many researches groups try to elucidate the mechanisms that explain this effects. Some studies report a significant reducing in nitric oxide (NO) production after the Hg exposure, which could contribute to an altered physiology of the cardiovascular system, once the NO is a modulating factor of this system. The NO is produced by the endothelial nitric oxide synthase (eNOS) and its activity can be altered by many factors like polymorphisms in gene that codify this protein, among this: : T-786C in the promoter region, 27-pb VNTR in intron 4 and Glu298Asp in exon 7. In this regard, the present study mean to evaluate the effects of the eNOS polymorphisms over the NO synthesis among the Hg exposed subjects. In this work, the whole blood samples of 214 volunteers were analyzed for determination of Hg concentration, nitrite plasma concentration and genotyping. The age of the volunteers varied between 15 and 84 years old, including 103 men and 111 women. The blood mercury concentration varied between 1.7 and 179.3 µg/L and the nitrite plasma concentration varied between 85.7 and 695.8 M. Was determinate the systolic arterial pressure (SAP), diastolic arterial pressure (DAP), body mass index (BMI) and heart rate (HR). The SAP mean was 119.8 mmHg and the DAP mean was 71.8 mmHg. The BMI mean was 24.5 Kg/m2 and the HR mean was 70.4 beats per minute. There was no difference among the groups of the three polymorphisms according the volunteers characteristics: age, DAP, SAP, BMI, HR, blood Hg concentration and nitrite plasma concentration. When the polymorphisms were observed separately the reduced nitrite plasma concentration was associated with the presence of the alleles: C in promoter region, 4b in intron 4 and G in exon 7, however there is lack of association when the volunteers were grouped according the blood Hg concentration, probably due a mask effect of the high Hg concentration. When these three polymorphisms were observed simultaneously, in analysis of the haplotypes, the association between the same alleles and the nitrite plasma concentration was observed again, confirming the initial findings. The commonest haplotype in the volunteers combine the alleles of the three polymorphisms (T, 4b and G) and the less frequent haplotype combine the three variants alleles. There was an association between the haplotype C, 4b and G and reduced nitrite plasma concentration, according the result of the polymorphisms separately. The haplotype analysis is too interesting to observe discrete effects, once is possible to analyze the effects of the three polymorphisms acting simultaneously above one variable, in this case, nitric oxide production. The present study suggest that genetic factors could exert a relevant influence above the NO production and bioavailability and that this factors combined with environmental Hg exposure can acting synergic, increasing the susceptibility to Hg cardiovascular effects, through the modulation of the eNOS activity. (AU)