van Duyvenvoorde H A, van Doorn J, Koenig J, Gauguin L, Oostdijk W, Wade J D, Karperien M, Ruivenkamp C A L, Losekoot M, van Setten P A, Walenkamp M J E, Noordam C, De Meyts P, Wit J M
Department of Pediatrics, Leiden University Medical Center, Leiden, The Netherlands.
Growth Horm IGF Res. 2011 Feb;21(1):44-50. doi: 10.1016/j.ghir.2010.12.004. Epub 2011 Jan 14.
While in previous studies heterozygosity for an Insulin-Like Growth Factor 1 (IGF1) defect only modestly decreased height and head circumference, we recently reported on two siblings with severe short stature with a maternally transmitted heterozygous duplication of 4 nucleotides, resulting in a frame shift and a premature termination codon in the IGF1 gene. In this paper we describe the structural and functional characteristics of the putative truncated IGF-I protein.
Two children, their mother and maternal grandfather carried the mutation. In addition, two family members who were not affected were included in the study. Mutant (MT) IGF-I was synthesized in oxidized and reduced form using two methods. Neutral gel filtration studies were carried out with wild-type (WT) and synthetic MT IGF-I. Binding analysis of synthetic MT IGF-I to the IGF1R and insulin receptors were performed with EBNA-293 cells, stably transfected with the IGF-I receptor, and IM9 cells. L6 cells were used to examine the mitogenic potency and the potential antagonizing effect of synthetic MT IGF-I by [(3)H]-thymidine incorporation assays.
In the sera of both the carriers and non-carriers the proportion of (125)I-IGF-I that was associated with the 150 kDa complex was somewhat less (varying between 37 and ~52%) than in normal pooled serum (53-~63%) and, instead, slightly increased amounts of radioactivity were eluted in the 40-50 kDa fraction (consisting of binary IGF-IGFBP complexes) or remained unbound. Synthetic MT IGF-I did not bind to the IGF-I receptor, nor antagonize the growth-promoting effect of IGF-I. It did bind to IGFBPs, but was barely incorporated into 150 kDa complexes. Because in all cases WT IGF-I immunoreactivity was recovered in one peak, corresponding to the MW of WT IGF-I, i.e. ~7.6 kDa, an interaction of circulating truncated mutant peptide with WT IGF-I is very unlikely.
There is no evidence that the severe short stature associated with heterozygosity for this novel IGF1 mutation in children born from a mother with the same mutation is caused by a dominant negative effect of the truncated protein. We speculate that the growth failure is caused by a combination of partial IGF-I deficiency, placental IGF-I insufficiency, and other genetic factors.
在先前的研究中,胰岛素样生长因子1(IGF1)缺陷的杂合性仅使身高和头围略有降低,而我们最近报道了两名患有严重身材矮小的同胞,他们携带了一个由母亲遗传的4个核苷酸的杂合重复,导致IGF1基因发生移码和提前终止密码子。在本文中,我们描述了推定的截短型IGF-I蛋白的结构和功能特征。
两名儿童、他们的母亲和外祖父携带该突变。此外,两名未受影响的家庭成员也被纳入研究。使用两种方法以氧化和还原形式合成突变型(MT)IGF-I。对野生型(WT)和合成的MT IGF-I进行中性凝胶过滤研究。用稳定转染了IGF-I受体的EBNA-293细胞和IM9细胞对合成的MT IGF-I与IGF1R和胰岛素受体进行结合分析。用L6细胞通过[³H] - 胸腺嘧啶掺入试验检测合成的MT IGF-I的促有丝分裂能力和潜在的拮抗作用。
在携带者和非携带者的血清中,与150 kDa复合物结合的¹²⁵I - IGF-I的比例均略低于正常混合血清(53 - ~63%)(在37%至52%之间变化),相反,在40 - 50 kDa部分(由二元IGF - IGFBP复合物组成)洗脱的放射性略有增加或保持未结合状态。合成的MT IGF-I不与IGF-I受体结合,也不拮抗IGF-I的促生长作用。它确实与IGFBPs结合,但几乎不掺入150 kDa复合物中。因为在所有情况下,WT IGF-I免疫反应性都在一个对应于WT IGF-I分子量(即7.6 kDa)的峰中回收,所以循环截短突变肽与WT IGF-I相互作用的可能性非常小。
没有证据表明,来自携带相同突变母亲的儿童中,与这种新型IGF1突变杂合性相关的严重身材矮小是由截短蛋白的显性负效应引起的。我们推测生长发育迟缓是由部分IGF-I缺乏、胎盘IGF-I不足以及其他遗传因素共同导致的。
