BACKGROUND AND OBJECTIVES: The alpha2A-adrenergic receptor (ADRA2A) plays a central role in the regulation of systemic sympathetic activity and hence cardiovascular responses such as heart rate and blood pressure. The objectives of this study were to systematically search for variants in the ADRA2A gene, to define the gene's haplotype structure, and to examine potential functional effects of these variants. METHODS: We examined 5957 base pairs of contiguous sequence of ADRA2A (promoter, exonic, and 3'-flanking region) using polymerase chain reaction to amplify the genomic target, followed by bidirectional sequencing, in 135 healthy subjects (85 white and 50 black subjects). Haplotypes were inferred by use of an expectation-maximization algorithm. Primary (plasma norepinephrine concentration) and secondary (resting heart rate and blood pressure) phenotypes were compared among subjects grouped by individual polymorphisms and haplotypes. RESULTS: We identified 41 variants, including 24 novel variants. On the basis of 9 optimally selected markers, 11 haplotypes in 5 haplotype groups were inferred, representing approximately 99% of the cohort. Two uncommon variants in complete linkage disequilibrium (G>C at -1903 and C>G at -1607, identified in 3 black subjects) were associated with significantly increased plasma norepinephrine concentrations (376.7 +/- 6.1 pg/mL versus 218.4 +/- 95.0 pg/mL, P = .011). There was no other significant association between genetic variants or any of the haplotypes with phenotypes. CONCLUSION: We describe novel variants and the haplotype structure of the ADRA2A gene. Common genetic ADRA2A variants are not important determinants of baseline cardiovascular measures (plasma norepinephrine, heart rate, and blood pressure) in healthy volunteers.
BACKGROUND AND OBJECTIVES: The alpha2A-adrenergic receptor (ADRA2A) plays a central role in the regulation of systemic sympathetic activity and hence cardiovascular responses such as heart rate and blood pressure. The objectives of this study were to systematically search for variants in the ADRA2A gene, to define the gene's haplotype structure, and to examine potential functional effects of these variants. METHODS: We examined 5957 base pairs of contiguous sequence of ADRA2A (promoter, exonic, and 3'-flanking region) using polymerase chain reaction to amplify the genomic target, followed by bidirectional sequencing, in 135 healthy subjects (85 white and 50 black subjects). Haplotypes were inferred by use of an expectation-maximization algorithm. Primary (plasma norepinephrine concentration) and secondary (resting heart rate and blood pressure) phenotypes were compared among subjects grouped by individual polymorphisms and haplotypes. RESULTS: We identified 41 variants, including 24 novel variants. On the basis of 9 optimally selected markers, 11 haplotypes in 5 haplotype groups were inferred, representing approximately 99% of the cohort. Two uncommon variants in complete linkage disequilibrium (G>C at -1903 and C>G at -1607, identified in 3 black subjects) were associated with significantly increased plasma norepinephrine concentrations (376.7 +/- 6.1 pg/mL versus 218.4 +/- 95.0 pg/mL, P = .011). There was no other significant association between genetic variants or any of the haplotypes with phenotypes. CONCLUSION: We describe novel variants and the haplotype structure of the ADRA2A gene. Common genetic ADRA2A variants are not important determinants of baseline cardiovascular measures (plasma norepinephrine, heart rate, and blood pressure) in healthy volunteers.
Authors: Utkarsh Kohli; André Diedrich; Prince J Kannankeril; Mordechai Muszkat; Gbenga G Sofowora; Maureen K Hahn; Brett A English; Randy D Blakely; C Michael Stein; Daniel Kurnik Journal: Physiol Genomics Date: 2015-06-09 Impact factor: 3.107
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Authors: Utkarsh Kohli; Mordechai Muszkat; Gbenga G Sofowora; Paul A Harris; Eitan A Friedman; William D Dupont; Mika Scheinin; Alastair J J Wood; C Michael Stein; Daniel Kurnik Journal: Eur J Pain Date: 2009-05-06 Impact factor: 3.931