BACKGROUND: The beta1- and beta2-adrenergic receptors (ARs) coexist in the human heart and control sympathetic responses. Several functional genetic variations in the beta-AR genes (ADRB1 or ADRB2) have been identified and implicated as causes of hypertension and cardiovascular disease. We assessed the relationship between 4 representative genetic polymorphisms of beta-AR (Ser49Gly and Arg389Gly in beta1-AR, Arg16Gly and Gln27Glu in beta2-AR) and autonomic nervous system (ANS) function in healthy young Japanese males. METHODS: One hundred forty-nine subjects were genotyped for each beta-AR polymorphism and underwent evaluation of ANS function by power spectral analysis of heart rate variability (HRV) during supine rest and in a standing position. The low-frequency (LF; <0.15 Hz) and high-frequency (HF; >0.15 Hz) components of HRV were quantified by frequency domain analysis and expressed in absolute and normalized units. RESULTS: The beta2-AR Arg16 homozygous group had a significantly lower diastolic and mean blood pressure than the Gly16 group in both Arg16Gly individual and Gln27Glu polymorphism combined diplotype-based analyses. In a supine rest position, subjects homozygous for the beta2-AR Arg16 allele had significantly lower HRV sympathetic indices (LF [%] and LF/HF ratio) but higher HRV parasympathetic indices (HF [%]) than the Gly16 allele carriers. Meanwhile, the beta2-AR Glu27 allele was significantly associated with higher HRV LF power than were Gln27 homozygous subjects. In the analysis of gene-gene interaction, the effects of the beta2-AR Arg16 homozygotes on HRV were more apparent in the presence of the beta1-AR Gly389 allele. No independent associations were observed between the beta1-AR Ser49Gly or Arg389Gly genotypes and HRV indices. CONCLUSIONS: The Arg16Gly polymorphism of the beta2-AR is related to the modulation of sympathovagal balance, and beta2-AR Glu27 allele carriers potentially have increased autonomic activity. Thus, beta-AR genotype-related differences in basic receptor function cause phenotypic differences in cardiac ANS function.
BACKGROUND: The beta1- and beta2-adrenergic receptors (ARs) coexist in the human heart and control sympathetic responses. Several functional genetic variations in the beta-AR genes (ADRB1 or ADRB2) have been identified and implicated as causes of hypertension and cardiovascular disease. We assessed the relationship between 4 representative genetic polymorphisms of beta-AR (Ser49Gly and Arg389Gly in beta1-AR, Arg16Gly and Gln27Glu in beta2-AR) and autonomic nervous system (ANS) function in healthy young Japanese males. METHODS: One hundred forty-nine subjects were genotyped for each beta-AR polymorphism and underwent evaluation of ANS function by power spectral analysis of heart rate variability (HRV) during supine rest and in a standing position. The low-frequency (LF; <0.15 Hz) and high-frequency (HF; >0.15 Hz) components of HRV were quantified by frequency domain analysis and expressed in absolute and normalized units. RESULTS: The beta2-ARArg16 homozygous group had a significantly lower diastolic and mean blood pressure than the Gly16 group in both Arg16Gly individual and Gln27Glu polymorphism combined diplotype-based analyses. In a supine rest position, subjects homozygous for the beta2-ARArg16 allele had significantly lower HRV sympathetic indices (LF [%] and LF/HF ratio) but higher HRV parasympathetic indices (HF [%]) than the Gly16 allele carriers. Meanwhile, the beta2-AR Glu27 allele was significantly associated with higher HRV LF power than were Gln27 homozygous subjects. In the analysis of gene-gene interaction, the effects of the beta2-ARArg16 homozygotes on HRV were more apparent in the presence of the beta1-ARGly389 allele. No independent associations were observed between the beta1-AR Ser49Gly or Arg389Gly genotypes and HRV indices. CONCLUSIONS: The Arg16Gly polymorphism of the beta2-AR is related to the modulation of sympathovagal balance, and beta2-AR Glu27 allele carriers potentially have increased autonomic activity. Thus, beta-AR genotype-related differences in basic receptor function cause phenotypic differences in cardiac ANS function.
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
Authors: Magda M Atala; Alessandra Goulart; Grazia M Guerra; Cristiano Mostarda; Bruno Rodrigues; Priscila R Mello; Dulce E Casarine; Maria-Claudia Irigoyen; Alexandre C Pereira; Fernanda M Consolim-Colombo Journal: Am J Transl Res Date: 2015-01-15 Impact factor: 4.060
Authors: Elena Reitman; Jessamyn Conell-Price; Jennifer Evansmith; Luke Olson; Sofia Drosinos; Nancy Jasper; Paula Randolph; Richard M Smiley; Steven Shafer; Pamela Flood Journal: Anesthesiology Date: 2011-04 Impact factor: 7.892