Hodgson D R, May F E, Westley B R
University Department of Pathology, Royal Victoria Infirmary, Newcastle upon Tyne, England.
Eur J Biochem. 1995 Oct 1;233(1):299-309. doi: 10.1111/j.1432-1033.1995.299_1.x.
Insulin-like growth factor 1 (IGF-1) and three analogues ([V11I]IGF-1, [V11T]IGF-1, and [Y60F]IGF-1), constructed by site-directed mutagenesis, were expressed as fusion proteins and secreted into the periplasmic space of Escherichia coli. Purified IGF were obtained following IgG Sepharose affinity and cation-exchange chromatographies of the products of hydroxylamine cleavage of fusion proteins. The properties of the mutants were assessed using (a) quantification of affinities for the human insulin receptor overexpressed on NIH 3T3 cells, (b) quantification of affinities for the type I IGF receptor via competition for binding to a monolayer of MDA-MB-231 cells, (c) promotion of the in vitro mitogenesis of growth-arrested MCF-7 cells in the presence of 17-beta-oestradiol, and (d) a competition assay for binding to IGF-binding proteins secreted by MCF-7 cells. The mutants exhibited decreases in affinity for the insulin receptor, relative to IGF-1, of 2.6-, 3.8- and, 8.8-fold for [Y60F]IGF-1, [V11I]IGF-1, and [V11T]IGF-1, respectively. IGF-1, [V11I]IGF-1, and [Y60F]IGF-1 were of equal potency in the growth assay and in affinity for the type I IGF receptor. [V11T]IGF-1 exhibited a three fold loss of potency in the type I IGF receptor-binding and growth assays. The mutants did not differ significantly from IGF-1 in their affinities for the IGF-binding proteins. The full-activity of [Y60F]IGF-1 at the type I IGF receptor, in contrast to the weakened receptor affinity of IGF-1 with a Leu substitution at this position, indicates a requirement for an aromatic ring, rather than a hydroxyl group, in the interaction of IGF-1 with the type I IGF receptor. The decrease in affinity for the insulin receptor of all the mutants indicates that, as in insulin, the residues Val11 and Tyr60 are important for the interaction of IGF-1 with the insulin receptor. The unchanged or minor changes in the affinities of the mutants for the type I IGF receptor contrast with the more deleterious effects of the mutations on insulin receptor binding and with the properties of analogues of insulin mutated at equivalent sites: 3-fold and 5-10-fold reductions in biological activity for [VB12I]insulin and [YA19F]insulin, respectively. Thus, the results obtained using the mutants indicate important differences between the IGF-1/type I IGF receptor and insulin/insulin receptor interactions.
胰岛素样生长因子1(IGF-1)及其通过定点诱变构建的三种类似物([V11I]IGF-1、[V11T]IGF-1和[Y60F]IGF-1)被表达为融合蛋白并分泌到大肠杆菌的周质空间中。通过对融合蛋白进行羟胺裂解产物进行IgG琼脂糖亲和层析和阳离子交换层析后,获得了纯化的IGF。使用以下方法评估突变体的特性:(a)定量分析在NIH 3T3细胞上过表达的人胰岛素受体的亲和力;(b)通过竞争结合MDA-MB-231细胞单层来定量分析I型IGF受体的亲和力;(c)在17-β-雌二醇存在的情况下,促进生长停滞的MCF-7细胞的体外有丝分裂;(d)进行结合MCF-7细胞分泌的IGF结合蛋白的竞争分析。相对于IGF-1,突变体对胰岛素受体的亲和力降低,[Y60F]IGF-1、[V11I]IGF-1和[V11T]IGF-1分别降低了2.6倍、3.8倍和8.8倍。IGF-1、[V11I]IGF-1和[Y60F]IGF-1在生长分析和对I型IGF受体的亲和力方面具有同等效力。[V11T]IGF-1在I型IGF受体结合和生长分析中表现出三倍的效力损失。突变体与IGF-1对IGF结合蛋白的亲和力没有显著差异。与该位置亮氨酸取代导致IGF-1受体亲和力减弱相反,[Y60F]IGF-1在I型IGF受体处具有完全活性,这表明IGF-1与I型IGF受体相互作用时需要一个芳香环而不是一个羟基。所有突变体对胰岛素受体亲和力的降低表明,与胰岛素一样,Val11和Tyr60残基对IGF-1与胰岛素受体的相互作用很重要。突变体对I型IGF受体亲和力的不变或微小变化与突变对胰岛素受体结合的更有害影响以及胰岛素在等效位点突变的类似物的特性形成对比:[VB12I]胰岛素和[YA19F]胰岛素的生物活性分别降低了3倍和5-10倍。因此,使用突变体获得的结果表明IGF-1/I型IGF受体和胰岛素/胰岛素受体相互作用之间存在重要差异。
