Molecular Structure-Based Screening of the Constituents of Calotropis procera Identifies Potential Inhibitors of Diabetes Mellitus Target Alpha Glucosidase

Cynthia A. Adinortey, Gabriel B. Kwarko, Russell Koranteng, Daniel Boison, Issaka Obuaba, Michael D. Wilson, Samuel K. Kwofie

Research output: Contribution to journalArticlepeer-review

24 Citations (Scopus)

Abstract

Diabetes mellitus is a disorder characterized by higher levels of blood glucose due to impaired insulin mechanisms. Alpha glucosidase is a critical drug target implicated in the mechanisms of diabetes mellitus and its inhibition controls hyperglycemia. Since the existing standard synthetic drugs have therapeutic limitations, it is imperative to identify new potent inhibitors of natural product origin which may slow carbohydrate digestion and absorption via alpha glucosidase. Since plant extracts from Calotropis procera have been extensively used in the treatment of diabetes mellitus, the present study used molecular docking and dynamics simulation techniques to screen its constituents against the receptor alpha glucosidase. Taraxasterol, syriogenin, isorhamnetin-3-O-robinobioside and calotoxin were identified as potential novel lead compounds with plausible binding energies of −40.2, −35.1, −34.3 and −34.3 kJ/mol against alpha glucosidase, respectively. The residues Trp481, Asp518, Leu677, Leu678 and Leu680 were identified as critical for binding and the compounds were predicted as alpha glucosidase inhibitors. Structurally similar compounds with Tanimoto coefficients greater than 0.7 were reported experimentally to be inhibitors of alpha glucosidase or antidiabetic. The structures of the molecules may serve as templates for the design of novel inhibitors and warrant in vitro assaying to corroborate their antidiabetic potential.

Original languageEnglish
Pages (from-to)963-987
Number of pages25
JournalCurrent Issues in Molecular Biology
Volume44
Issue number2
DOIs
Publication statusPublished - Feb 2022

Keywords

  • Alpha glucosidase
  • Calotropis procera
  • Cheminformatics
  • Diabetes
  • Molecular docking
  • Molecular dynamics simulations

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