Inhibition of Resistance-Refractory P. falciparum Kinase PKG Delivers Prophylactic, Blood Stage, and Transmission-Blocking Antiplasmodial Activity

Manu Vanaerschot(Columbia University Irving Medical Center), James M. Murithi(Columbia University Irving Medical Center), Charisse Flerida A. Pasaje(Massachusetts Institute of Technology), Sonja Ghidelli‐Disse(GlaxoSmithKline (Germany)), Louis Dwomoh(University of Glasgow), Megan J. Bird(Monash University), Natasha Spottiswoode(Columbia University Irving Medical Center), Nimisha Mittal(University of California San Diego), Lauren B. Arendse(South African Medical Research Council), Edward Owen(Pennsylvania State University), Kathryn J. Wicht(Columbia University Irving Medical Center), Giulia Siciliano(Istituto Superiore di Sanità), Markus Bösche(GlaxoSmithKline (Germany)), Tomas Yeo(Columbia University Irving Medical Center), T. R. Santha Kumar(Columbia University Irving Medical Center), Sachel Mok(Columbia University Irving Medical Center), Emma F. Carpenter(Wellcome Sanger Institute), Marla J. Giddins(Columbia University Irving Medical Center), Olalla Sanz(GlaxoSmithKline (Spain)), Sabine Ottilie(University of California San Diego), Pietro Alano(Istituto Superiore di Sanità), Kelly Chibale(South African Medical Research Council), Manuel Llinás(Pennsylvania State University), Anne‐Catrin Uhlemann(Columbia University Irving Medical Center), Michael J. Delves(London School of Hygiene & Tropical Medicine), Andrew B. Tobin(University of Glasgow), Christian Doerig(Monash University), Elizabeth A. Winzeler(University of California San Diego), Lee M(Wellcome Sanger Institute), Jacquin C. Niles(Massachusetts Institute of Technology), David A. Fidock(Columbia University Irving Medical Center)
Cell chemical biology
April 30, 2020
10.1016/j.chembiol.2020.04.001
Cited by 90Open Access
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Abstract

The search for antimalarial chemotypes with modes of action unrelated to existing drugs has intensified with the recent failure of first-line therapies across Southeast Asia. Here, we show that the trisubstituted imidazole MMV030084 potently inhibits hepatocyte invasion by Plasmodium sporozoites, merozoite egress from asexual blood stage schizonts, and male gamete exflagellation. Metabolomic, phosphoproteomic, and chemoproteomic studies, validated with conditional knockdown parasites, molecular docking, and recombinant kinase assays, identified cGMP-dependent protein kinase (PKG) as the primary target of MMV030084. PKG is known to play essential roles in Plasmodium invasion of and egress from host cells, matching MMV030084's activity profile. Resistance selections and gene editing identified tyrosine kinase-like protein 3 as a low-level resistance mediator for PKG inhibitors, while PKG itself never mutated under pressure. These studies highlight PKG as a resistance-refractory antimalarial target throughout the Plasmodium life cycle and promote MMV030084 as a promising Plasmodium PKG-targeting chemotype.

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