Background-Oxidation of LDL plays a role in endothelial dysfunction. Paraoxonase, an enzyme present on HDL, protects LDL against oxidation. Paraoxonase activity is genetically determined in part, and 3 genotypes have been described with variable enzymatic activity. We hypothesized that the paraoxonase polymorphism might influence endothelial function. Methods and Results-Twenty-seven patients with clinical manifestations of coronary artery disease underwent provocative testing by intracoronary administration of serotonin. None of the coronary arteries studied had significant (>50%) stenosis. Ten patients had the QQ genotype and 17 had the QR genotype. At proximal segments, the mean percentage reduction in lumen diameter in response to serotonin was greater in QQ patients than in QR patients (10(-5) mol/L: P<0.05; 10(-4) mol/L: P<0.006). Similarly, at distal segments, constriction in response to serotonin was greater in QQ patients than in QR patients (10(-6) mol/L: P<0. 03; 10(-5) mol/L: P<0.07). Conclusions-These results suggest a higher synthesis or release of endothelium-derived relaxing factors to counteract the vasoconstrictor effect of serotonin in patients with the R allele. These findings provide evidence that the paraoxonase polymorphism may play a role in the regulation of coronary vasomotor tone.