Slow allotypic variants of the NAT2 gene and susceptibility to early-onsetParkinson's disease

Objective: To determine the frequency and the linkage distribution of seven mutations at the polymorphic gene coding for the arylamine N-acetyl transf erase (NAT2; EC 2.3.1.5) in 121 unrelated patients with sporadic PD and in 121 unrelated healthy volunteers. Methods: The study was performed with mut ation-specific PCR using genomic DNA obtained from blood of the probands. R esults: Comparison of the NAT2 genotypes of the overall PD patients and con trol subjects did not indicate statistically significant differences. Howev er, patients with early-onset PD (onset before the age of 50 years, n = 37) showed a higher frequency of slow-acetylation genotypes (78.4% patients) c ompared with both healthy control subjects (55.4%) and with late-onset (ons et after 51 years of age, n = 84) PD patients (54.8%). Such a difference wa s statistically significant (p < 0.015) and was the result of a homogeneous increase in the frequency of slow-acetylation alleles. All subgroups analy zed in the study were in Hardy-Weinberg equilibrium for mutations at the NA T2 gene. Conclusions: Slow-acetylation-mutated alleles may be considered lo w-penetrance genes in early-onset PD pathogenesis, with a relative risk rat io for individuals with slow-acetylation genotype of 2.92 (95% CI, 1.26 to 6.78). This study provides evidence for the interaction of genetic and envi ronmental factors in the etiology of sporadic PD.