胰岛淀粉样多肽(IAPP,胰淀素)融合蛋白的原子结构揭示了纤维化机制以及胰岛素在该过程中的作用。
Atomic structures of IAPP (amylin) fusions suggest a mechanism for fibrillation and the role of insulin in the process.
作者信息
Wiltzius Jed J W, Sievers Stuart A, Sawaya Michael R, Eisenberg David
机构信息
Howard Hughes Medical Institute, UCLA-DOE Institute of Genomics and Proteomics, Los Angeles, California 90095-1570, USA.
出版信息
Protein Sci. 2009 Jul;18(7):1521-30. doi: 10.1002/pro.145.
Abstract
Islet Amyloid Polypeptide (IAPP or amylin) is a peptide hormone produced and stored in the beta-islet cells of the pancreas along with insulin. IAPP readily forms amyloid fibrils in vitro, and the deposition of fibrillar IAPP has been correlated with the pathology of type II diabetes. The mechanism of the conversion that IAPP undergoes from soluble to fibrillar forms has been unclear. By chaperoning IAPP through fusion to maltose binding protein, we find that IAPP can adopt a alpha-helical structure at residues 8-18 and 22-27 and that molecules of IAPP dimerize. Mutational analysis suggests that this dimerization is on the pathway to fibrillation. The structure suggests how IAPP may heterodimerize with insulin, which we confirmed by protein crosslinking. Taken together, these experiments suggest the helical dimerization of IAPP accelerates fibril formation and that insulin impedes fibrillation by blocking the IAPP dimerization interface.
摘要
胰岛淀粉样多肽(IAPP或胰淀素)是一种与胰岛素一起在胰腺β胰岛细胞中产生和储存的肽激素。IAPP在体外很容易形成淀粉样纤维,并且纤维状IAPP的沉积与II型糖尿病的病理学相关。IAPP从可溶形式转变为纤维状形式的转化机制尚不清楚。通过将IAPP与麦芽糖结合蛋白融合来陪伴IAPP,我们发现IAPP在8-18和22-27位残基处可以采用α-螺旋结构,并且IAPP分子会二聚化。突变分析表明这种二聚化是纤维化途径中的一步。该结构表明了IAPP可能如何与胰岛素异源二聚化,我们通过蛋白质交联证实了这一点。综上所述,这些实验表明IAPP的螺旋二聚化加速了纤维形成,而胰岛素通过阻断IAPP二聚化界面来阻碍纤维化。
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