Abstract
While islet amyloid polypeptide (IAPP) aggregation is associated with β-cell death in type-II diabetes (T2D), environmental elements of β-cell granules — e.g. high concentrations of insulin and Zn2+ — inhibit IAPP aggregation in healthy individuals. The inhibition by insulin is experimentally known, but the role of Zn2+ is controversial as both correlations and anti-correlations at the population level are observed between T2D risk and the activity of a β-cell specific zinc ion transporter, ZnT8. Since Zn2+ concentration determines insulin oligomer equilibrium, we computationally investigated interactions of IAPP with different insulin oligomers and compared with IAPP homodimer formation. We found that IAPP binding with insulin oligomers competes with the formation of both higher-molecular-weight insulin oligomers and IAPP homodimers. Therefore, zinc deficiency due to loss-of-function ZnT8 mutations shifts insulin oligomer equilibrium toward zinc-free monomers and dimers, which bind IAPP monomers more efficiently compared to zinc-bound hexamers. The hetero-molecular complex formation prevents IAPP from self-association and subsequent aggregation, reducing T2D risk.
Highlights
Inhibition of islet amyloid polypeptide (IAPP) aggregation by insulin depends on the insulin oligomeric state regulated by zinc ion concentration
We further studied the formation of hIAPP homodimer, and molecular complex foramation between a hIAPP and an insulin monomer or dimer
A distinct peak exists in the specific heat curve of rIAPP around T 5 0.575 kcal/mol?KB, which indicates a more corporative unfolding transition compared to hIAPP
Summary
Inhibition of IAPP aggregation by insulin depends on the insulin oligomeric state regulated by zinc ion concentration. While islet amyloid polypeptide (IAPP) aggregation is associated with b-cell death in type-II diabetes (T2D), environmental elements of b-cell granules — e.g. high concentrations of insulin and Zn21 — inhibit IAPP aggregation in healthy individuals. IAPP variants of diabetesprone cat and human aggregate readily in vitro, while IAPP peptides of diabetes-free rat and pig have low propensity to form amyloid aggregates[10]. Environmental elements of b-cell granules — e.g. low pH15, high concentrations of zinc ion and insulin peptides — inhibit the formation of IAPP aggregates. In addition to IAPP and insulin with their important roles in T2D, genetics association studies have identified other T2D-related genes and corresponding variations across different populations with distinct diabetes risks
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
