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Histone Methyltransferase Inhibitors Are Orally Bioavailable,Fast-Acting Molecules with Activity against Different Species Causing Malaria in Humans
Authors:Nicholas A. Malmquist  Sandeep Sundriyal  Joachim Caron  Patty Chen  Benoit Witkowski  Didier Menard  Rossarin Suwanarusk  Laurent Renia  Francois Nosten  María Belén Jiménez-Díaz  I?igo Angulo-Barturen  María Santos Martínez  Santiago Ferrer  Laura M. Sanz  Francisco-Javier Gamo  Sergio Wittlin  Sandra Duffy  Vicky M. Avery  Andrea Ruecker  Michael J. Delves  Robert E. Sinden  Matthew J. Fuchter  Artur Scherf
Abstract:
Current antimalarials are under continuous threat due to the relentless development of drug resistance by malaria parasites. We previously reported promising in vitro parasite-killing activity with the histone methyltransferase inhibitor BIX-01294 and its analogue TM2-115. Here, we further characterize these diaminoquinazolines for in vitro and in vivo efficacy and pharmacokinetic properties to prioritize and direct compound development. BIX-01294 and TM2-115 displayed potent in vitro activity, with 50% inhibitory concentrations (IC50s) of <50 nM against drug-sensitive laboratory strains and multidrug-resistant field isolates, including artemisinin-refractory Plasmodium falciparum isolates. Activities against ex vivo clinical isolates of both P. falciparum and Plasmodium vivax were similar, with potencies of 300 to 400 nM. Sexual-stage gametocyte inhibition occurs at micromolar levels; however, mature gametocyte progression to gamete formation is inhibited at submicromolar concentrations. Parasite reduction ratio analysis confirms a high asexual-stage rate of killing. Both compounds examined displayed oral efficacy in in vivo mouse models of Plasmodium berghei and P. falciparum infection. The discovery of a rapid and broadly acting antimalarial compound class targeting blood stage infection, including transmission stage parasites, and effective against multiple malaria-causing species reveals the diaminoquinazoline scaffold to be a very promising lead for development into greatly needed novel therapies to control malaria.
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