Taylor S I, Kadowaki T, Kadowaki H, Accili D, Cama A, McKeon C
Biochemistry and Molecular Pathophysiology Section, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, MD 20892.
Diabetes Care. 1990 Mar;13(3):257-79. doi: 10.2337/diacare.13.3.257.
Defects in insulin-receptor function have been associated with insulin-resistant states such as obesity and non-insulin-dependent diabetes mellitus (NIDDM). Several types of mutations in the insulin-receptor gene have been identified in patients with genetic syndromes of extreme insulin resistance. In some patients, insulin resistance results from a decrease in the number of insulin receptors on the cell surface. In one patient with leprechaunism (leprechaun/Minn-1), there is greater than 90% decrease in the levels of insulin-receptor mRNA. This patient is a compound heterozygote for two mutations in the insulin-receptor gene, both of which act in a cis-dominant fashion to decrease levels of mRNA transcribed from that allele. In one allele, there is a nonsense mutation at codon 897. All 22 exons of the other allele have a normal sequence, so that the mutation in this allele appears to map outside the coding sequence of the gene. Impaired insertion in the plasma membrane also causes insulin resistance. In two sisters (patients A-5 and A-8) with type A extreme insulin resistance, there is an 80-90% decrease in the number of insulin receptors expressed on the surface of their cells. Both sisters, whose parents are first cousins, are homozygous for a point mutation in which valine is substituted for phenylalanine at position 382 in the alpha-subunit of the insulin receptor. This mutation retards the posttranslational processing of the receptor and impairs the transport of receptors to the cell surface. Another patient with leprechaunism (leprechaun/Ark-1) is a compound heterozygote with two different mutant alleles of the insulin-receptor gene. In the allele derived from the father, there is a nonsense mutation at codon 672 that truncates the insulin receptor by deleting the COOH-terminal of the alpha-subunit and the entire beta-subunit. This truncated receptor, lacking a transmembrane domain, appears not to be expressed at the plasma membrane. In leprechaun/Ark-1, there is a missense mutation in the allele of the insulin-receptor gene derived from the mother. This point mutation results in substitution of glutamic acid for lysine at position 460 in the COOH-terminal half of the alpha-subunit. This mutation increases receptor affinity and impairs the ability of acid pH to dissociate insulin from the receptor within the endosome. There is a defect in recycling the receptor back to the plasma membrane associated with this defect. This results in an accelerated rate of receptor degradation and a consequent decrease in the number of receptors on the cell surface in vivo.(ABSTRACT TRUNCATED AT 400 WORDS)
胰岛素受体功能缺陷与胰岛素抵抗状态相关,如肥胖和非胰岛素依赖型糖尿病(NIDDM)。在患有极端胰岛素抵抗遗传综合征的患者中,已鉴定出胰岛素受体基因的几种突变类型。在一些患者中,胰岛素抵抗是由于细胞表面胰岛素受体数量减少所致。在一名患有矮妖精貌综合征(矮妖精貌/Minn-1)的患者中,胰岛素受体mRNA水平下降超过90%。该患者是胰岛素受体基因两个突变的复合杂合子,这两个突变均以顺式显性方式作用,降低了从该等位基因转录的mRNA水平。在一个等位基因中,密码子897处存在无义突变。另一个等位基因的所有22个外显子序列正常,因此该等位基因中的突变似乎位于基因编码序列之外。质膜插入受损也会导致胰岛素抵抗。在两名患有A型极端胰岛素抵抗的姐妹(患者A-5和A-8)中,其细胞表面表达的胰岛素受体数量减少了80 - 90%。这两名姐妹的父母是近亲,她们在胰岛素受体α亚基第382位的点突变上是纯合子,该突变导致缬氨酸替代苯丙氨酸。这种突变阻碍了受体的翻译后加工,并损害了受体向细胞表面的转运。另一名患有矮妖精貌综合征的患者(矮妖精貌/Ark-1)是胰岛素受体基因两个不同突变等位基因的复合杂合子。在来自父亲的等位基因中,密码子672处存在无义突变,该突变通过删除α亚基的COOH末端和整个β亚基来截断胰岛素受体。这种截断的受体缺乏跨膜结构域,似乎不在质膜上表达。在矮妖精貌/Ark-1中,来自母亲的胰岛素受体基因等位基因存在错义突变。这个点突变导致α亚基COOH末端一半的第460位赖氨酸被谷氨酸替代。这种突变增加了受体亲和力,并损害了酸性pH使胰岛素在内体中与受体解离的能力。与此缺陷相关的是受体循环回到质膜存在缺陷。这导致受体降解加速,进而导致体内细胞表面受体数量减少。(摘要截取自400字)
