二维核磁共振波谱对人胰淀素聚乙二醇化位点的模糊表征

IF 1.5 4区生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Peptide Science Pub Date : 2021-12-11 DOI:10.1002/pep2.24252

L. M. T. Lima, T. S. Araújo, M. Almeida

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引用次数: 0

摘要

胰淀素是一种37 -残基肽激素，与胰岛素共同分泌，通过减缓胃排空和促进饱腹感来防止餐后血糖升高。胰淀素容易聚集成低聚物和淀粉样原纤维，这与2型糖尿病的发病有关，并阻碍了其作为生物制药的使用。为了克服其不稳定性和延长其体内半衰期，有人提出在Lys1的HNζ或HNα胺上与聚乙二醇(PEG)偶联。本研究利用二维核磁共振波谱技术对胰淀素共价修饰位点进行了明确的鉴定。聚乙二醇的偶联导致它们的HN的化学交换显著降低，并改变了HN和邻域烃基(包括Lys1的CHα、CHδ和CHε)的化学位移。进一步的化学位移分析表明，残基Cys2、Asn3、Ala5、Cys7和Gln10的HNα溶剂可及性发生了变化，并证实了氧化Cys2和Cys7的存在。我们相信，这里所描述的方法是一个参考的化学偶联的一些生物制药的表征。

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Unambiguous characterization of PEGylation site on human amylin by two‐dimensional nuclear magnetic resonance spectroscopy

Amylin is a 37‐residue peptide hormone, which is co‐secreted with insulin and prevents postprandial spikes in blood glycemia by slowing gastric emptying and promoting satiety. Amylin is prone to aggregate into oligomers and amyloid fibrils, which is related to the onset of type 2 diabetes, and hampers its use as a biopharmaceutical. To overcome the instability and extend its in vivo half‐life it has been proposed the conjugation of amylin with polyethylene glycol (PEG) at the HNζ or the HNα amines of Lys1. Here we used two‐dimensional nuclear magnetic resonance spectra aiming the unambiguous identification of the site of covalent modification on amylin. The coupling of PEG causes both a substantial decrease in the chemical exchange of their HN and alterations in the chemical shifts at both the HN and the neighborhood hydrocarbon groups including CHα, CHδ and CHε of Lys1. Additional analysis of chemical shifts indicates alteration in the HNα solvent accessibility of residues Cys2, Asn3, Ala5, Cys7, and Gln10, and confirmed the presence of oxidized Cys2 and Cys7. We believe that the methodology described here is a reference for the characterization of chemical coupling of a number of biopharmaceuticals.

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来源期刊

Peptide Science Biochemistry, Genetics and Molecular Biology-Biophysics

CiteScore

5.20

自引率

4.20%

发文量

期刊介绍： The aim of Peptide Science is to publish significant original research papers and up-to-date reviews covering the entire field of peptide research. Peptide Science provides a forum for papers exploring all aspects of peptide synthesis, materials, structure and bioactivity, including the use of peptides in exploring protein functions and protein-protein interactions. By incorporating both experimental and theoretical studies across the whole spectrum of peptide science, the journal serves the interdisciplinary biochemical, biomaterials, biophysical and biomedical research communities. Peptide Science is the official journal of the American Peptide Society.