Production of a novel heterodimeric two-chain insulin-Fc fusion protein.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Christine Faust, Christian Ochs, Marcus Korn, Ulrich Werner, Jennifer Jung, Werner Dittrich, Werner Schiebler, Rolf Schauder, Ercole Rao, Thomas Langer
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引用次数: 5

Abstract

Insulin is a peptide hormone produced by the pancreas. The physiological role of insulin is the regulation of glucose metabolism. Under certain pathological conditions the insulin levels can be reduced leading to the metabolic disorder diabetes mellitus (DM). For type 1 DM and, dependent on the disease progression for type 2 DM, insulin substitution becomes indispensable. To relieve insulin substitution therapy for patients, novel insulin analogs with pharmacokinetic and pharmacodynamic profiles aiming for long-lasting or fast-acting insulins have been developed. The next step in the evolution of novel insulins should be insulin analogs with a time action profile beyond 1-2 days, preferable up to 1 week. Nowadays, insulin is produced in a recombinant manner. This approach facilitates the design and production of further insulin-analogs or insulin-fusion proteins. The usage of the Fc-domain from immunoglobulin as a fusion partner for therapeutic proteins and peptides is widely used to extend their plasma half-life. Insulin consists of two chains, the A- and B-chain, which are connected by two disulfide-bridges. To produce a novel kind of Fc-fusion protein we have fused the A-chain as well as the B-chain to Fc-fragments containing either 'knob' or 'hole' mutations. The 'knob-into-hole' technique is frequently used to force heterodimerization of the Fc-domain. Using this approach, we were able to produce different variants of two-chain-insulin-Fc-protein (tcI-Fc-protein) variants. The tcI-Fc-fusion variants retained activity as shown in in vitro assays. Finally, prolonged blood glucose lowering activity was demonstrated in normoglycemic rats. Overall, we describe here the production of novel insulin-Fc-fusion proteins with prolonged times of action.

一种新型异二聚体双链胰岛素- fc融合蛋白的产生。
胰岛素是胰腺分泌的一种肽激素。胰岛素的生理作用是调节葡萄糖代谢。在某些病理条件下,胰岛素水平降低可导致代谢性疾病糖尿病(DM)。对于1型糖尿病和依赖于2型糖尿病的疾病进展,胰岛素替代是必不可少的。为了减轻患者的胰岛素替代治疗,研究人员开发了具有药代动力学和药效学特征的新型胰岛素类似物,旨在长效或速效胰岛素。新型胰岛素进化的下一步应该是胰岛素类似物,其作用时间超过1-2天,最好长达1周。现在,胰岛素是通过重组的方式生产的。这种方法有助于进一步设计和生产胰岛素类似物或胰岛素融合蛋白。使用来自免疫球蛋白的fc结构域作为治疗性蛋白和多肽的融合伙伴被广泛用于延长其血浆半衰期。胰岛素由两条链,A链和b链组成,它们由两个二硫桥连接。为了产生一种新型的fc融合蛋白,我们将a链和b链融合到含有“旋钮”或“洞”突变的fc片段上。“旋钮入孔”技术经常用于迫使fc结构域异二聚化。使用这种方法,我们能够产生两链胰岛素- fc蛋白(tci - fc蛋白)变体的不同变体。体外实验显示,tci - fc融合变异体保持活性。最后,在血糖正常的大鼠中显示出持久的降血糖活性。总的来说,我们在这里描述了具有延长作用时间的新型胰岛素- fc融合蛋白的产生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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