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首页> 外文期刊>Organic & biomolecular chemistry >Convergent chemoenzymatic synthesis of a library of glycosylated analogues of pramlintide: structure-activity relationships for amylin receptor agonism
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Convergent chemoenzymatic synthesis of a library of glycosylated analogues of pramlintide: structure-activity relationships for amylin receptor agonism

机译:普兰林肽糖基化类似物库的趋化化学合成:胰岛淀粉样多肽受体激动的结构活性关系

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摘要

Pramlintide (Symlin®), a synthetic analogue of the naturally occurring pancreatic hormone amylin, is currently used with insulin in adjunctive therapy for type 1 and type 2 diabetes mellitus. Herein we report a systematic study into the effect that N-glycosylation of pramlintide has on activation of amylin receptors. A highly efficient convergent synthetic route, involving a combination of solid phase peptide synthesis and enzymatic glycosylation, delivered a library of N-glycosylated variants of pramlintide bearing either GlcNAc, the core N-glycan pentasaccharide [Man_3(GlcNAc)_2] or a complex biantennary glycan [(NeuAcGalGlcNAcMan)_2Man(GlcNAc)_2] at each of its six asparagine residues. The majority of glycosylated versions of pramlintide were potent receptor agonists, suggesting that N-glycosylation may be used as a tool to optimise the pharmacokinetic properties of pramlintide and so deliver improved therapeutic agents for the treatment of diabetes and obesity.
机译:普兰林特(Symlin®)是一种天然存在的胰激素胰岛淀粉样多肽的合成类似物,目前与胰岛素一起用于1型和2型糖尿病的辅助治疗。本文中,我们报告了对普兰林肽的N-糖基化对胰岛淀粉样多肽受体活化的影响的系统研究。涉及固相肽合成和酶促糖基化结合的高效融合合成路线,提供了带有GlcNAc,核心N-聚糖五糖[Man_3(GlcNAc)_2]或复杂双触角的普兰林肽N-糖基化变体文库聚糖[(NeuAcGalGlcNAcMan)_2Man(GlcNAc)_2]的六个天冬酰胺残基中的每个残基。普兰林肽的大多数糖基化形式是有效的受体激动剂,这表明N-糖基化可用作优化普兰林肽的药代动力学性质的工具,因此可提供用于治疗糖尿病和肥胖症的改良治疗剂。

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  • 来源
    《Organic & biomolecular chemistry》 |2014年第41期|8142-8151|共10页
  • 作者

    Renata Kowalczyk; Margaret A. Brimble; Yusuke Tomabechi; Antony J. Fairbanks; Madeleine Fletcher; Debbie L. Hay;

  • 作者单位

    The School of Chemical Sciences, University of Auckland, 23 Symonds St, Auckland 1010, New Zealand,The School of Biological Sciences, University of Auckland, 3 Symonds St, Auckland 1010, New Zealand,Maurice Wilkins Centre for Molecular Biodiscovery, University of Auckland, Private Bag 92019, Auckland 1010, New Zealand;

    The School of Chemical Sciences, University of Auckland, 23 Symonds St, Auckland 1010, New Zealand,Maurice Wilkins Centre for Molecular Biodiscovery, University of Auckland, Private Bag 92019, Auckland 1010, New Zealand;

    Department of Chemistry, University of Canterbury, Private Bag 4800, Christchurch 8140, New Zealand;

    Maurice Wilkins Centre for Molecular Biodiscovery, University of Auckland, Private Bag 92019, Auckland 1010, New Zealand,Department of Chemistry, University of Canterbury, Private Bag 4800, Christchurch 8140, New Zealand,Biomolecular Interactions Centre, University of Canterbury, Private Bag 4800, Christchurch 8140, New Zealand;

    The School of Biological Sciences, University of Auckland, 3 Symonds St, Auckland 1010, New Zealand;

    The School of Biological Sciences, University of Auckland, 3 Symonds St, Auckland 1010, New Zealand,Maurice Wilkins Centre for Molecular Biodiscovery, University of Auckland, Private Bag 92019, Auckland 1010, New Zealand;

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