Objective In a case control study, the possible genetic factors relevance to occupational chronic manganism were investigated.
Methods Forty nine manganisms who were welders and ferromanganese smelters occupationally exposed to
manganese dust and fume from three metallurgical industries, and fifty unrelated healthy control subjects who were working same workshops were recruited. The subjects were matched for sex, age, cigarette and alcohol intake. The manganese exposure duration was also matched in this case control study. Genetic polymorphism of cytochrome P450 2D6L (CYP2D6L) gene and NAD(P)H: quinone oxidreductase (NQO1) genes from all subjects were investigated. The mutations of CYP2D6L gene located exon 6 were analyzed by a polymerase chain reaction (PCR) based DNA amplification combined with Hha Ⅰ restriction fragment length polymorphism (RFLP). The substitution of 609 C T at exon 6 of DT diaphroase gene was analyzed by PCR combined Hinf Ⅰ RFLP. Results The frequency of polymorphic allels, a mutation of CYP2D6, was significantly lower in patients with manganism (16.3%) than that of the controls (29.0%). A significant association was also found between the homozygote variant of CYP2D6L gene and occupational manganism. These results suggest that the CYP2D6 gene might be one of the
susceptibility genes for Mn induced neurotoxicity. The allele and genotype frequencies of NQO1 gene were similar in the manganism cases and control subjects. Conclusion It is possible that CYP2D6 gene may be a valuable susceptibility biomarker responded to Mn induced central nervous system disorders in workers exposed to manganese.