Department of Medicine, King Faisal Specialist Hospital & Research Centre, Riyadh, Saudi Arabia.
Clin Endocrinol (Oxf). 2012 Apr;76(4):540-7. doi: 10.1111/j.1365-2265.2011.04258.x.
Mutations of the insulin receptor gene (INSR) can cause genetic syndromes associated with severe insulin resistance.
We aimed to analyse INSR mutations in Saudi patients with severe insulin resistance.
Ten patients with Type A insulin resistance syndrome from five unrelated Saudi families were investigated. The entire coding region of INSR was sequenced. The founder effect was assessed by microsatellite haplotype analysis. The functional effect of the mutation was investigated by in vitro functional assays.
A novel biallelic c.433 C>T (p.R118C) mutation was detected in all patients. The c.433 C>T (p.R118C) sequence variation was not found in 100 population controls. The arginine residue at position 118 is located in the ligand-binding domain of INSR and is highly conserved across species. Microsatellite haplotype analysis of these patients indicated that p.R118C was a founder mutation created approximately 2900 years ago. The wild-type and mutant (R118C) INSR were cloned and expressed in CHO cells for functional analysis. Specific insulin binding to the mutant receptor was reduced by 83% as compared to wild-type (WT), although the mutant receptor was processed and expressed on the cell surface. Insulin-mediated receptor autophosphorylation was also significantly reduced in CHO(R118C) cells.
Biallelic c.433 C>T (p.R118C) mutation of INSR causes significant damage to insulin binding and insulin-mediated signal transduction. p.R118C is a founder mutation frequently present in the Saudi patients with severe insulin resistance.
胰岛素受体基因(INSR)的突变可导致与严重胰岛素抵抗相关的遗传综合征。
分析沙特严重胰岛素抵抗患者的 INSR 突变。
研究了来自五个无关沙特家庭的 10 例 A 型胰岛素抵抗综合征患者。对 INSR 的整个编码区进行了测序。通过微卫星单体型分析评估了启动子效应。通过体外功能测定研究了突变的功能影响。
在所有患者中均检测到一种新的双等位基因 c.433 C>T(p.R118C)突变。在 100 个人群对照中未发现 c.433 C>T(p.R118C)序列变异。位置 118 的精氨酸残基位于 INSR 的配体结合域,在物种间高度保守。这些患者的微卫星单体型分析表明,p.R118C 是大约 2900 年前创建的启动子突变。野生型和突变型(R118C)INSR 在 CHO 细胞中克隆并表达进行功能分析。与野生型(WT)相比,突变受体对胰岛素的特异性结合减少了 83%,尽管突变受体在细胞表面被加工和表达。CHO(R118C)细胞中的胰岛素介导的受体自身磷酸化也显著降低。
INSR 的双等位基因 c.433 C>T(p.R118C)突变导致胰岛素结合和胰岛素介导的信号转导明显受损。p.R118C 是沙特严重胰岛素抵抗患者中常见的启动子突变。
