Target-Based 6-5 Fused Ring Heterocyclic Scaffolds Display Broad Antiparasitic Potency In Vitro-Reference-Cited by-同舟云学术

Target-Based 6-5 Fused Ring Heterocyclic Scaffolds Display Broad Antiparasitic Potency In Vitro

Published:2024-02-28 Issue:1 Volume:4 Page:188-198
ISSN:2673-9879
Container-title:Future Pharmacology
language:en
Short-container-title:Future Pharmacology

Author:

Dize Darline¹^ORCID,Tali Mariscal Brice Tchatat¹,Ngansop Cyrille Armel Njanpa¹,Keumoe Rodrigue¹,Madiesse Kemgne Eugenie Aimée¹²,Yamthe Lauve Rachel Tchokouaha¹³,Tsouh Fokou Patrick Valere¹⁴^ORCID,Pone Kamdem Boniface¹^ORCID,Hata Katsura⁵,Fekam Boyom Fabrice¹²^ORCID

Affiliation:

1. Antimicrobial and Biocontrol Agents Unit (AmBcAU), Department of Biochemistry, Faculty of Science, University of Yaounde I, Yaounde P.O. Box 12558, Cameroon

2. Advanced Research & Health Innovation Hub, Yaounde P.O. Box 20133, Cameroon

3. Institute for Medicinal Research and Medicinal Plants Studies, Yaounde P.O. Box 6163, Cameroon

4. Department of Biochemistry, Faculty of Sciences, University of Bamenda, Bambili P.O. Box 39, Cameroon

5. Global Health Research Section, hhc Data Creation Center, Eisai Co., Ltd., 1-3, Tokodai 5-chome, Tsukuba-shi 300-2635, Ibaraki, Japan

Abstract

Malaria, leishmaniasis, and African trypanosomiasis are protozoan diseases that constitute major global health problems, especially in developing countries; however, the development of drug resistance coupled with the toxicity of current treatments has hindered their management. The involvement of certain enzymes (dihydrofolate reductase [DHFR]) or proteins (potassium channels) in the pathogenesis of these protozoan diseases is undeniable. In this study, a series of three DHFR inhibitors (6-5 fused heterocyclic derivatives X, Y, and Z) and one K+ channel blocker (E4031) were screened for their inhibitory effects on Leishmania donovani, Plasmodium falciparum, and Trypanosoma brucei. A resazurin assay was used to assess the antitrypanosomal and antileishmanial activities of the test compounds, whereas the antiplasmodial activity was evaluated through the SYBR Green I test. Moreover, the cytotoxicities of the test compounds were evaluated in Vero, Raw 264.7, and HepG-2 cells using a resazurin-based test, while their pharmacokinetic properties were predicted using the online tool, pkCSM. As a result, compound Y exhibited selective (selectivity index range: from 2.69 to >61.4; Vero, Raw 264.7, and HepG-2 cells) and broad-spectrum antiprotozoal activity against L. donovani promastigotes (IC50: 12.4 µM), amastigotes (IC50: 4.28 µM), P. falciparum (IC50: 0.028 µM), and T. brucei brucei (IC50: 0.81 µM). In addition, compound X inhibited the growth of P. falciparum (IC50: 0.0052 µM) and T. brucei brucei (IC50: 6.49 µM). In silico screening of the active antiprotozoal compounds revealed positive drug likeness scores, as none of the criteria for Lipinski’s rule were violated by these compounds. However, in-depth pharmacokinetic and mechanistic studies are warranted to support the discovery of novel antiprotozoal agents against malaria, leishmaniasis, and African trypanosomiasis by repurposing K+ channel blockers and DHFR inhibitors.

Funder

Grand Challenges Africa programme

The Grand Challenges Africa

initiative of AAS and the African Union Development Agency-New Partnership for Africa’s Development

Bill & Melinda Gates Foundation (BMGF), Medicines for Malaria Venture (MMV), and Drug Discovery and Development Centre of University of Cape Town

Publisher

MDPI AG

Link

https://www.mdpi.com/2673-9879/4/1/13/pdf

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