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Withanolide A inhibits hIAPP aggregation: An In silico, biophysical, and drosophila-based In vivo validation.

Created on 05 Jul 2026

Authors

Smita Manjari Panda, Kalpanarani Dash, Devi Prashanna Behera, Monalisa Mishra, Harekrushna Sahoo, Umakanta Tripathy

Published in

Scientific reports. Jul 04, 2026. Epub Jul 04, 2026.

Abstract

The aberrant aggregation of human islet amyloid polypeptide (hIAPP) or Amylin into toxic oligomers and fibrils leads to pancreatic β-cell dysfunction and progressive cell death, which is a key pathological feature of Type II diabetes mellitus (T2DM). In this study, we adopted a hybrid approach combining virtual screening and molecular dynamics (MD) simulation, with experimental validation, to identify inhibitors of hIAPP aggregation. Herein, we screened 2000 phytoconstituents from natural products using molecular docking, followed by in silico ADMET predictions. Withaferin A and Withanolide A (phytoconstituents of Ashwagandha) were found to be lead molecules with suitable drug-like properties. Next, we performed MD simulation to assess the stability and interaction dynamics of hIAPP-ligand complexes, and the effect of ligands on hIAPP fibrils. Building on the computational screening, we further carried out a comprehensive experimental analysis to validate the inhibitory effects of lead molecules. The collective experimental results from the Thioflavin T (ThT) assays, FTIR experiment, combined with Confocal and Transmission Electron Microscopy (TEM), suggest that the ligands (preferably Withanolide A) have a potent inhibitory effect against hIAPP aggregation by increasing the lag phase, reducing β-sheet content, and inhibiting fibril formation of hIAPP. For in vivo validation using Drosophila model, Withanolide A was found to mitigate hIAPP oligomer-induced toxicity by reducing apoptosis, necrosis, and oxidative stress in the Drosophila gut, as confirmed by multiple cell death staining assays and reactive oxygen species (ROS) analysis. Besides, in diabetic flies, Withanolide A lowered glucose levels, demonstrating anti-diabetic activity. Thus, this work, for the first time, suggests that Withanolide A may be a potential candidate for inhibiting hIAPP aggregation and as a T2DM drug.

PMID:
42401729
Bibliographic data and abstract were imported from PubMed on 05 Jul 2026.

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