Dopamine D 2 receptor gene polymorphism and the risk of levodopa-induced dyskinesias in PD

Abstract

Objective: To investigate whether polymorphisms in the genes for dopamine receptors D₁ and D₂ are associated with the risk of developing peak-dose dyskinesias in PD. Background: Peak-dose dyskinesias are the most common side effects of levodopa therapy for PD. The identified predictors may only partially account for the risk of developing peak-dose dyskinesias because a substantial proportion of patients never develop peak-dose dyskinesias. Genetic factors could play a role in determining the occurrence of peak-dose dyskinesias. Methods: A case-control study of 136 subjects with sporadic PD and 224 population control subjects. We studied three polymorphisms involving the dopamine receptor D₁ gene and one intronic short tandem repeat polymorphism of the dopamine receptor D₂ gene. Results: The polymorphisms of the dopamine receptor D₁ gene were not associated with the risk of developing PD or peak-dose dyskinesias. The 15 allele of the polymorphism of the dopamine receptor D₂ gene was more frequent in parkinsonian subjects than in control subjects. More important, the frequency of both the 13 allele and the 14 allele of the dopamine receptor D₂ gene polymorphism was higher in nondyskinetic than in the dyskinetic PD subjects. The risk reduction of developing peak-dose dyskinesias for PD subjects carrying at least 1 of the 13 or 14 alleles was 72% with respect to the PD subjects who did not carry these alleles. Conclusions: Certain alleles of the short tandem repeat polymorphism of the dopamine receptor D₂ gene reduce the risk of developing peak-dose dyskinesias and could contribute to varying susceptibility to develop peak-dose dyskinesias during levodopa therapy.