La Rosée Karl, Huntgeburth Michael, Rosenkranz Stephan, Böhm Michael, Schnabel Petra
Klinik III für Innere Medizin, Universität zu Köln, Germany.
Pharmacogenetics. 2004 Nov;14(11):711-6. doi: 10.1097/00008571-200411000-00001.
Recently, the Arg389Gly beta1-adrenoceptor (beta1AR) gene polymorphism has been detected. The Arg variant exhibited increased responsiveness to agonist-induced stimulation in vitro. Functional studies in isolated human atrial muscle strips and in-vivo studies revealed contradictory results regarding the functional relevance of this polymorphism. We sought to characterize the functional consequences of the Arg389Gly beta1-AR polymorphism in 30 consecutive healthy male volunteers in vivo.
beta1-AR genotype was determined by PCR and restriction analysis, which was confirmed by DNA sequencing. We compared heart rate, blood pressure, and contractile response of the various genotype carriers with a modified dobutamine stress echocardiography protocol.
Subjects homozygous for the Arg389 beta1AR showed a significantly higher increase in fractional shortening upon cumulative doses of dobutamine as compared to subjects carrying one or two copies of the Gly389 allele. A statistically significant difference was observed at a dobutamine dose of 10 microg/kg/min (46.5 +/- 1.3 vs. 41.8 +/- 1.0 %; P = 0.023) and was maximal at 40 microg/kg/min (61.9 +/- 1.4 vs. 52.8 +/- 1.6; P = 0.001). As a result, the systolic blood pressure response to dobutamine was significantly enhanced in individuals homozygous for the Arg389 allele, whereas the effect on heart rate did not differ between the two groups. Normalization for changing afterload conditions by calculating the pressure-dimension ratio revealed similar effects, indicating that the beta1AR-mediated effects are mainly a result of increased myocardial inotropy.
These data indicate that the Arg389Gly beta1AR polymorphism is functionally relevant in vivo and determines contractile responsiveness to catecholamines in humans.
最近,已检测到Arg389Glyβ1 - 肾上腺素能受体(β1AR)基因多态性。在体外,Arg变体对激动剂诱导的刺激表现出更高的反应性。在分离的人心房肌条中的功能研究和体内研究揭示了关于这种多态性的功能相关性的矛盾结果。我们试图在30名连续的健康男性志愿者体内表征Arg389Glyβ1 - AR多态性的功能后果。
通过PCR和限制性分析确定β1 - AR基因型,并通过DNA测序进行确认。我们使用改良的多巴酚丁胺负荷超声心动图方案比较了不同基因型携带者的心率、血压和收缩反应。
与携带一个或两个Gly389等位基因拷贝的受试者相比,Arg389β1AR纯合子受试者在累积剂量的多巴酚丁胺作用下,缩短分数的增加显著更高。在多巴酚丁胺剂量为10μg/kg/min时观察到统计学上的显著差异(46.5±1.3对41.8±1.0%;P = 0.023),在40μg/kg/min时差异最大(61.9±1.4对52.8±1.6;P = 0.0)。结果,Arg389等位基因纯合子个体对多巴酚丁胺的收缩压反应显著增强,而两组之间对心率的影响没有差异。通过计算压力 - 维度比来标准化变化的后负荷条件显示出类似的效果,表明β1AR介导的效应主要是心肌收缩力增加的结果。
这些数据表明,Arg389Glyβ1AR多态性在体内具有功能相关性,并决定了人类对儿茶酚胺的收缩反应性。
