Department of Clinical Pharmacology, Medical University of Vienna, Vienna, Austria.
Pharmacogenet Genomics. 2011 Nov;21(11):751-9. doi: 10.1097/FPC.0b013e32834a8621.
Treatment with angiotensin converting enzyme (ACE)-inhibitors favorably affects glucose metabolism and the development of diabetes mellitus by largely elusive mechanisms. To identify these mechanisms, we studied the effect of ACE-inhibition on gene expression in skeletal muscle, a primary target tissue for insulin in glucose homeostasis.
A subject-blinded and analyst-blinded, placebo-controlled study was conducted in nine healthy men. Two consecutive muscle biopsies were conducted before and 9 h after a single dose of either 10-mg ramipril (n=6) or placebo (n=3), (randomly allocated). Muscle ribonucleic acid was subjected to transcriptome profiling.
In both ramipril-treated or placebo-treated individuals, the majority of genes with differential expression between the two time points belonged to the family of diurnally regulated genes, such as the NR1D1 and NR1D2 genes (nuclear receptor subfamily 1, group D, members 1 and 2) or members of the period homolog family (PER1-3). Ramipril significantly modulated the expression of other diurnally regulated genes, such as aryl hydrocarbon receptor nuclear translocator-like (ARNTL), encoding aryl hydrocarbon receptor nuclear translocator-like, a core component of the circadian clock (P=0.02). Concomitant attenuation of NR1D1 downregulation (-2.4-fold compared with -4.1-fold in placebo; P=0.04), a transcriptional repressor of ARNTL, supported the view that ramipril might modulate glucose homeostasis pathways involving the NR1D1 ARNTL axis.
As circadian rhythms are deranged in patients who are diabetic, modulated expression of circadian clock genes by ramipril could explain the favorable metabolic effects of therapeutic ACE-inhibition.
血管紧张素转换酶(ACE)抑制剂通过许多难以捉摸的机制对葡萄糖代谢和糖尿病的发展产生有利影响。为了确定这些机制,我们研究了 ACE 抑制剂对胰岛素在葡萄糖稳态中主要靶组织骨骼肌基因表达的影响。
进行了一项双盲(患者和分析者)、安慰剂对照的研究,纳入 9 名健康男性。在单次给予 10mg 雷米普利(n=6)或安慰剂(n=3)(随机分配)前后,连续进行两次骨骼肌活检。对肌肉核糖核酸进行转录组谱分析。
在雷米普利治疗或安慰剂治疗的个体中,两个时间点之间差异表达的大多数基因属于昼夜调节基因家族,如 NR1D1 和 NR1D2 基因(核受体亚家族 1,D 组,成员 1 和 2)或周期同源物家族(PER1-3)的成员。雷米普利显著调节其他昼夜调节基因的表达,如芳香烃受体核转位蛋白样(ARNTL)基因,其编码芳香烃受体核转位蛋白样,是生物钟的核心组成部分(P=0.02)。NR1D1 下调的同时减弱(与安慰剂相比,下调 2.4 倍;P=0.04),作为 ARNTL 的转录抑制剂,支持雷米普利可能调节涉及 NR1D1-ARNTL 轴的葡萄糖稳态途径的观点。
由于糖尿病患者的昼夜节律紊乱,雷米普利对生物钟基因的调节表达可以解释治疗性 ACE 抑制的有利代谢作用。
