AI Article Synopsis
- Uncontrolled protein misfolding creates amyloid deposits linked to over 40 diseases, including type-2 diabetes, with hIAPP aggregates being a key factor.
- Research focuses on the thermal degradation of hIAPP fibrils as a potential method to reduce their toxicity to pancreatic β-cells.
- The study reveals insights into the degradation mechanism by analyzing structural and interaction changes in the amyloid aggregates, suggesting new strategies for fibril disassembly and nanostructure modulation.
Article Abstract
Uncontrolled misfolding of proteins resulting in the formation of amyloid deposits is associated with over 40 types of diseases, for instance, type-2 diabetes. The human Islet amyloid polypeptide (hIAPP) amyloid formation is thought to be the cause of type-2 diabetes occurrence. A possible strategy to the current challenge of reducing the toxicity of its aggregates to pancreatic β-cell is the discovery of an efficient way to degrading amyloid deposits. In this work, hIAPP, a core fibrillating fragment of hIAPP, was selected as model system to explore the thermal effect at different temperature on the degradation of hIAPP mature fibrils. Insights on the degradation mechanism are obtained by analyzing the morphologies, the mechanical properties, the interactions between the peptides, and the secondary structure of amyloid aggregates. In addition, thermal degradation displayed a possible way to breaking the interaction of peptides and further disassembling the amyloid fibrils. These findings may initiate a new avenue to degrade the amyloid peptide aggregates and enrich and update the current selection of nanostructure modulations.
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| http://dx.doi.org/10.1016/j.jcis.2017.10.107 | DOI Listing |
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