超分子蛋白质工程：锌指胰岛素六聚体的设计作为长效储库。

Supramolecular protein engineering: design of zinc-stapled insulin hexamers as a long acting depot.

机构信息

Department of Biochemistry, Western Reserve University School of Medicine, Cleveland, Ohio 44106, USA.

出版信息

J Biol Chem. 2010 Apr 16;285(16):11755-9. doi: 10.1074/jbc.C110.105825. Epub 2010 Feb 24.

DOI:10.1074/jbc.C110.105825

PMID:20181952

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2852910/

Abstract

Bottom-up control of supramolecular protein assembly can provide a therapeutic nanobiotechnology. We demonstrate that the pharmacological properties of insulin can be enhanced by design of "zinc staples" between hexamers. Paired (i, i+4) His substitutions were introduced at an alpha-helical surface. The crystal structure contains both classical axial zinc ions and novel zinc ions at hexamer-hexamer interfaces. Although soluble at pH 4, the combined electrostatic effects of the substitutions and bridging zinc ions cause isoelectric precipitation at neutral pH. Following subcutaneous injection in a diabetic rat, the analog effected glycemic control with a time course similar to that of long acting formulation Lantus. Relative to Lantus, however, the analog discriminates at least 30-fold more stringently between the insulin receptor and mitogenic insulin-like growth factor receptor. Because aberrant mitogenic signaling may be associated with elevated cancer risk, such enhanced specificity may improve safety. Zinc stapling provides a general strategy to modify the pharmacokinetic and biological properties of a subcutaneous protein depot.

摘要

自下而上控制超分子蛋白质组装可以提供治疗性纳米生物技术。我们证明，通过设计六聚体之间的“锌钉”可以增强胰岛素的药理学性质。在α螺旋表面引入配对（i，i+4）His 取代。晶体结构包含经典的轴向锌离子和六聚体-六聚体界面处的新型锌离子。尽管在 pH 4 下可溶，但取代和桥接锌离子的组合静电效应导致在中性 pH 值下等电沉淀。在糖尿病大鼠中皮下注射后，该类似物的作用类似于长效制剂 Lantus ，具有相似的血糖控制时间过程。然而，与 Lantus 相比，该类似物对胰岛素受体和促有丝分裂胰岛素样生长因子受体的区分至少严格 30 倍。因为异常的促有丝分裂信号可能与癌症风险升高有关，因此这种增强的特异性可能会提高安全性。锌钉提供了一种通用策略来修饰皮下蛋白质储存库的药代动力学和生物学特性。

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