新型胰岛素德谷胰岛素（一种超长效基础胰岛素）持续释放机制的设计。

Design of the novel protraction mechanism of insulin degludec, an ultra-long-acting basal insulin.

机构信息

Diabetes Research Unit, Novo Nordisk, Novo Nordisk Park, 2760, Måløv, Denmark.

出版信息

Pharm Res. 2012 Aug;29(8):2104-14. doi: 10.1007/s11095-012-0739-z. Epub 2012 Apr 7.

DOI:10.1007/s11095-012-0739-z

PMID:22485010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3399081/

Abstract

PURPOSE

Basal insulins with improved kinetic properties can potentially be produced using acylation by fatty acids that enable soluble, high-molecular weight complexes to form post-injection. A series of insulins, acylated at B29 with fatty acids via glutamic acid spacers, were examined to deduce the structural requirements.

METHODS

Self-association, molecular masses and hexameric conformations of the insulins were studied using size exclusion chromatography monitored by UV or multi-angle light scattering and dynamic light scattering, and circular dichroism spectroscopy (CDS) in environments (changing phenol and zinc concentration) simulating a pharmaceutical formulation and changes following subcutaneous injection.

RESULTS

With depletion of phenol, insulin degludec and another fatty diacid-insulin analogue formed high molecular mass filament-like complexes, which disintegrated with depletion of zinc. CDS showed these analogues adopting stable T(3)R(3) conformation in presence of phenol and zinc, changing to T(6) with depletion of phenol. These findings suggest insulin degludec is dihexameric in pharmaceutical formulation becoming multihexameric after injection. The analogues showed weak dimeric association, indicating rapid release of monomers following hexamer disassembly.

CONCLUSIONS

Insulins can be engineered that remain soluble but become highly self-associated after injection, slowly releasing monomers; this is critically dependent on the acylation moiety. One such analogue, insulin degludec, has therapeutic potential.

摘要

目的

通过脂肪酸酰化作用，可以产生具有改善动力学特性的基础胰岛素，从而在注射后形成可溶性高分子量复合物。本研究通过谷氨酸间隔物将脂肪酸酰化到 B29 位，对一系列胰岛素进行了考察，以推断结构要求。

方法

使用紫外或多角度光散射和动态光散射监测的排阻色谱法研究了胰岛素的自缔合、分子量和六聚体构象，并使用圆二色性光谱（CDS）在模拟药物制剂的环境（改变苯酚和锌浓度）以及皮下注射后的变化中研究了这些性质。

结果

随着苯酚的耗尽，胰岛素德谷胰岛素和另一种脂肪酸二酰胰岛素类似物形成了高分子质量的丝状复合物，随着锌的耗尽，这些复合物解体。CDS 显示这些类似物在苯酚和锌存在下采用稳定的 T（3）R（3）构象，随着苯酚的耗尽转变为 T（6）。这些发现表明胰岛素德谷胰岛素在药物制剂中是二聚体，在注射后成为多聚体。这些类似物显示出较弱的二聚体缔合，表明六聚体解体后单体迅速释放。

结论

可以设计出在注射后仍保持可溶性但高度自缔合的胰岛素，缓慢释放单体；这严重依赖于酰化部分。其中一种类似物，胰岛素德谷胰岛素，具有治疗潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/852e/3399081/746202c6692f/11095_2012_739_Fig1_HTML.jpg

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新型胰岛素德谷胰岛素（一种超长效基础胰岛素）持续释放机制的设计。

Design of the novel protraction mechanism of insulin degludec, an ultra-long-acting basal insulin.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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