Document Type
Article
Publication Date
3-15-2022
Publication Title
Journal of Food and Drug Analysis
Volume
30
Issue
1
Pages
128-149
Publisher Name
Food and Drug Administration, Taiwan (TFDA)
Abstract
Leishmaniasis remains a serious public health problem in many tropical regions of the world. Among neglected tropical diseases, the mortality rate of leishmaniasis is second only to malaria. All currently approved therapeutics have toxic side effects and face rapidly increasing resistance. To identify existing drugs with antileishmanial activity and predict the mechanism of action, we designed a drug-discovery pipeline utilizing both in-silico and in-vitro methods. First, we screened compounds from the Selleckchem Bio-Active Compound Library containing ~1622 FDA-approved drugs and narrowed these down to 96 candidates based on data mining for possible anti-parasitic properties. Next, we completed preliminary in-vitro testing of compounds against Leishmania amastigotes and selected the most promising active compounds, Lansoprazole and Posaconazole. We identified possible Leishmania drug targets of Lansoprazole and Posaconazole using several available servers. Our in-silico screen identified likely Lansoprazole targets as the closely related calcium-transporting ATPases (LdBPK_352080.1, LdBPK_040010.1, and LdBPK_170660.1), and the Posaconazole target as lanosterol 14-alpha-demethylase (LdBPK_111100.1). Further validation showed LdBPK_352080.1 to be the most plausible target based on induced-fit docking followed by long (100ns) MD simulations to confirm the stability of the docked complexes. We present a likely ion channel-based mechanism of action of Lansoprazole against Leishmania calcium-transporting ATPases, which are essential for parasite metabolism and infectivity. The LdBPK_111100.1 interaction with Posaconazole is very similar to the known fungal orthologue. Herein, we present two novel anti-leishmanial agents, Posaconazole and Lansoprazole, already approved by the FDA for different indications and propose plausible mechanisms of action for their antileishmanial activity.
Recommended Citation
Gupta, Yash; Goicoechea, Steven; Romero, Jesus G.; Mathur, Raman; Caulfield, Thomas R.; Becker, Daniel P.; Durvasula, Ravi; and Kempaiah, Prakasha. Repurposing Lansoprazole and Posaconazole to treat Leishmaniasis: Integration of in vitro Testing, Pharmacological Corroboration, and Mechanisms of Action. Journal of Food and Drug Analysis, 30, 1: 128-149, 2022. Retrieved from Loyola eCommons, Chemistry: Faculty Publications and Other Works, http://dx.doi.org/10.38212/2224-6614.3394
Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 4.0 International License.
Copyright Statement
©️ Taiwan Food and Drug Administration, 2022.
Comments
Author Posting ©️ Taiwan Food and Drug Administration, 2022. This article is posted here by permission of Food and Drug Administration, Taiwan for personal use and redistribution. This article was published open access in Journal of Food and Drug Analysis , VOL.30,ISS.1, (March 15,2022), https://doi.org/10.38212/2224-6614.3394