Genetic Variations in the α2A-Adrenoreceptor Are Associated with Blood Pressure Response to the Agonist Dexmedetomidine
Daniel Kurnik et al.
CIRC GENETICS.110.957662 Published online before print February 15, 2011
Background—α2A-Adrenoceptors (α2AA-ARs) have important roles in sympathetic cardiovascular regulation. Variants of ADRA2A affect gene transcription and expression and are associated with insulin release and risk for type 2 diabetes. We examined whether ADRA2A variants are also associated with cardiovascular responses to the selective α2-AR-agonist, dexmedetomidine.
Methods and Results—73 healthy subjects participated in a placebo-controlled single-blind study. After 3 infusions of placebo, subjects received 3 incremental infusions of dexmedetomidine (cumulative dose, 0.4 mcg/kg). Primary outcomes were changes in systolic blood pressure (SBP) and plasma norepinephrine concentrations, measured as difference of the area-under-the-curve during placebo and dexmedetomidine infusions (ΔAUC). We used multiple linear regression analysis to examine the associations between 9 ADRA2A tagging variants and 5 inferred haplotypes and ΔAUC after adjustment for covariates. Homozygous carriers of rs553668, and the corresponding haplotype 4, previously associated with increased α2A-AR expression, had a 2.2-fold greater decrease in AUCSBP after dexmedetomidine (adjusted P=0.006); similarly, the maximum decrease in SBP was 24.7±8.1 mmHg compared to 13.6±5.9 mmHg in carriers of the wildtype allele (P=0.007). Carriers of haplotype 3, previously associated with reduced α2A-AR expression, had a 44% smaller decrease in AUCSBP (P=0.013). Haplotype information significantly improved the model predicting the decrease in SBP (P<0.001). There were similar but non-significant trends for diastolic blood pressure and heart rate. Genotypes were not significantly associated with norepinephrine responses.
Conclusions—Common ADRA2A variants are associated with the hypotensive response to dexmedetomidine. Effects of specific variants/haplotypes in vivo are compatible with their known effects on gene expression in vitro.
No comments:
Post a Comment