Pharmacological Research - Modern Chinese Medicine (Mar 2024)

Isoliquiritigenin from licorice root: A multi-stage anti-malarial with synergistic impact on multidrug-resistant P. falciparum

  • Saurabh Kumar,
  • Deepak Singh kapkoti,
  • Pooja Rani Mina,
  • Divya Bhatt,
  • Parmanand Kumar,
  • Manju Singh,
  • Karuna Shanker,
  • Dnyaneshwar Umrao Bawankule,
  • Rajendra Singh Bhakuni,
  • Anirban Pal,
  • Mahendra P. Darokar

Journal volume & issue
Vol. 10
p. 100396

Abstract

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Introduction: Malaria control is hindered by drug-resistant parasites, leading to a shortage of effective drugs. There is a need to find new, better antimalarial drug. Traditional Chinese Medicine (TCM) are more accessible and cheaper alternative for combating resistance in the treatment of malaria, therefore the anti-malarial efficacy of root extracts and isolated phytomolecules from Glycyrrhiza glabra L was assessed. Methods: The anti-plasmodial potential of root extracts and isolated phytomolecules from Glycyrrhiza glabra L. was assessed using the Giemsa staining method. In- vivo, antimalarial efficacy was evaluated by conducting a four-day suppression test in a mouse model. The mechanistic studies of ISL were carried out using caspase-like activity, mitochondrial membrane potential, and reactive oxygen species (ROS) assay. Further, proteomics analysis was carried out by LC-MS/MS. The interaction of the combinations was evaluated using the fixed ratio method by calculating the fractional inhibitory concentration (FIC). Results: Extracts of G. glabra contain Phytomolecule(s) with moderate anti-plasmodial activity against multidrug-resistant strain (K1) of P. falciparum. Isoliquiritigenin (ISL) exhibited a significant reduction in parasitemia, resulting in an enhancement of the mean survival time in Plasmodium yoelii nigeriensis infected mice. ISL showed potent activity with no cytotoxic effect and increased caspase-3 activity, leading increasing reactive oxygen species (ROS) and loss of mitochondrial potential. ISL also displayed synergy with chloroquine, glabridin and liquiritigenin against multi-drug-resistant P. falciparum. Discussion: The present study found ISL to be a potential phytomolecule of G. glabra. The study explored the mechanism of action of ISL and suggested its suitability for further study in managing drug-resistant malaria.

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