Fibril structures of diabetes-related amylin variants reveal a basis for surface-templated assembly

Aggregation of the peptide hormone amylin into amyloid deposits is a pathological hallmark of type-2 diabetes (T2D). While no causal link between T2D and amyloid has been established, the S20G mutation in amylin is associated with early-onset T2D. Here we report cryo-EM structures of amyloid fibrils...

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Published inNature structural & molecular biology Vol. 27; no. 11; pp. 1048 - 1056
Main Authors Gallardo, Rodrigo, Iadanza, Matthew G., Xu, Yong, Heath, George R., Foster, Richard, Radford, Sheena E., Ranson, Neil A.
Format Journal Article
LanguageEnglish
Published New York Nature Publishing Group US 01.11.2020
Nature Publishing Group
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Summary:Aggregation of the peptide hormone amylin into amyloid deposits is a pathological hallmark of type-2 diabetes (T2D). While no causal link between T2D and amyloid has been established, the S20G mutation in amylin is associated with early-onset T2D. Here we report cryo-EM structures of amyloid fibrils of wild-type human amylin and its S20G variant. The wild-type fibril structure, solved to 3.6-Å resolution, contains two protofilaments, each built from S-shaped subunits. S20G fibrils, by contrast, contain two major polymorphs. Their structures, solved at 3.9-Å and 4.0-Å resolution, respectively, share a common two-protofilament core that is distinct from the wild-type structure. Remarkably, one polymorph contains a third subunit with another, distinct, cross-β conformation. The presence of two different backbone conformations within the same fibril may explain the increased aggregation propensity of S20G, and illustrates a potential structural basis for surface-templated fibril assembly. Cryo-EM structures of diabetes-related amyloids formed by wild-type human amylin (IAPP) and its S20G variant reveal a mode for surface-templated fibril growth.
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ISSN:1545-9993
1545-9985
DOI:10.1038/s41594-020-0496-3