Bhatnagar Vibha, O'Connor Daniel T, Schork Nicholas J, Salem Rany M, Nievergelt Caroline M, Rana Brinda K, Smith Douglas W, Bakris George L, Middleton John P, Norris Keith C, Wright Jackson T, Cheek Deanna, Hiremath Leena, Contreras Gabriel, Appel Lawrence J, Lipkowitz Michael S
University of California San Diego, La Jolla, USA.
J Hypertens. 2007 Oct;25(10):2082-92. doi: 10.1097/HJH.0b013e3282b9720e.
It has yet to be determined whether genotyping at the angiotensin-converting enzyme (ACE) locus is predictive of blood pressure response to an ACE inhibitor.
Participants from the African American Study of Kidney Disease and Hypertension trial randomized to the ACE inhibitor ramipril (n = 347) were genotyped at three polymorphisms on ACE, just downstream from the ACE insertion/deletion polymorphism (Ins/Del): G12269A, C17888T, and G20037A. Time to reach target mean arterial pressure (</=107 mmHg) was analyzed by genotype and ACE haplotype using Kaplan-Meier survival curves and Cox proportional hazard models.
Individuals with a homozygous genotype at G12269A responded significantly faster than those with a heterozygous genotype; the adjusted (average number of medications and baseline mean arterial pressure) hazard ratio (homozygous compared to heterozygous genotype) was 1.86 (95% confidence limits 1.32-3.23; P < 0.001 for G12269A genotype). The adjusted hazard ratio for participants with homozygous ACE haplotypes compared to those heterozygous ACE haplotypes was 1.40 (1.13-1.75; P = 0.003 for haplotype). The ACE genotype effects were specific for ACE inhibition (i.e., not seen among those randomized to a calcium channel blocker), and were independent of population stratification.
African-Americans with a homozygous genotype at G12269A or homozygous ACE haplotypes responded to ramipril significantly faster than those with a heterozygous genotype or heterozygous haplotypes, suggesting that heterosis may be an important determinant of responsiveness to an ACE inhibitor. These associations may be a result of biological activity of this polymorphism, or of linkage disequilibrium with nearby variants such as the ACE Ins/Del, perhaps in the regulation of ACE splicing.
血管紧张素转换酶(ACE)基因座的基因分型是否能预测对ACE抑制剂的血压反应尚待确定。
来自非裔美国人肾脏疾病与高血压研究试验中被随机分配至ACE抑制剂雷米普利组(n = 347)的参与者,在ACE基因上插入/缺失多态性(Ins/Del)下游的三个多态性位点进行基因分型:G12269A、C17888T和G20037A。使用Kaplan-Meier生存曲线和Cox比例风险模型,按基因型和ACE单倍型分析达到目标平均动脉压(≤107 mmHg)的时间。
G12269A位点纯合基因型个体的反应明显快于杂合基因型个体;校正(药物平均数量和基线平均动脉压)风险比(纯合基因型与杂合基因型相比)为1.86(95%置信区间1.32 - 3.23;G12269A基因型P < 0.001)。与杂合ACE单倍型的参与者相比,纯合ACE单倍型参与者的校正风险比为1.40(1.13 - 1.75;单倍型P = 0.003)。ACE基因型效应是ACE抑制所特有的(即在随机分配至钙通道阻滞剂的参与者中未观察到),且与人群分层无关。
G12269A位点纯合基因型或纯合ACE单倍型的非裔美国人对雷米普利的反应明显快于杂合基因型或杂合单倍型的个体,这表明杂种优势可能是对ACE抑制剂反应性的重要决定因素。这些关联可能是该多态性生物活性的结果,或者是与附近变体(如ACE Ins/Del)连锁不平衡的结果,可能参与ACE剪接的调控。