Molecules (Mar 2018)

Diabetes Drug Discovery: hIAPP1–37 Polymorphic Amyloid Structures as Novel Therapeutic Targets

  • Isaac Fernández-Gómez,
  • Marquiza Sablón-Carrazana,
  • Alberto Bencomo-Martínez,
  • Guadalupe Domínguez,
  • Reyna Lara-Martínez,
  • Nelly F. Altamirano-Bustamante,
  • Luis Felipe Jiménez-García,
  • Karina Pasten-Hidalgo,
  • Rosa Angélica Castillo-Rodríguez,
  • Perla Altamirano,
  • Suchitil Rivera Marrero,
  • Cristina Revilla-Monsalve,
  • Peter Valdés-Sosa,
  • Fabio Salamanca-Gómez,
  • Eulalia Garrido-Magaña,
  • Chryslaine Rodríguez-Tanty,
  • Myriam M. Altamirano-Bustamante

DOI
https://doi.org/10.3390/molecules23030686
Journal volume & issue
Vol. 23, no. 3
p. 686

Abstract

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Human islet amyloid peptide (hIAPP1–37) aggregation is an early step in Diabetes Mellitus. We aimed to evaluate a family of pharmaco-chaperones to act as modulators that provide dynamic interventions and the multi-target capacity (native state, cytotoxic oligomers, protofilaments and fibrils of hIAPP1–37) required to meet the treatment challenges of diabetes. We used a cross-functional approach that combines in silico and in vitro biochemical and biophysical methods to study the hIAPP1–37 aggregation-oligomerization process as to reveal novel potential anti-diabetic drugs. The family of pharmaco-chaperones are modulators of the oligomerization and fibre formation of hIAPP1–37. When they interact with the amino acid in the amyloid-like steric zipper zone, they inhibit and/or delay the aggregation-oligomerization pathway by binding and stabilizing several amyloid structures of hIAPP1–37. Moreover, they can protect cerebellar granule cells (CGC) from the cytotoxicity produced by the hIAPP1–37 oligomers. The modulation of proteostasis by the family of pharmaco-chaperones A–F is a promising potential approach to limit the onset and progression of diabetes and its comorbidities.

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