Identification of a New Chemical Class of Antimalarials
Author(s) -
Ralf Brunner,
Hamed Aissaoui,
Christoph Boss,
Zbynek Bozdech,
Reto Brun,
Olivier Corminboeuf,
Stéphane Delahaye,
Christoph Fischli,
Bibia Heidmann,
Marcel Kaiser,
Jolanda Kamber,
Solange Meyer,
Petros Papastogiannidis,
Romain Siegrist,
Till S. Voss,
Richard W.D. Welford,
Sergio Wittlin,
Christoph A. Binkert
Publication year - 2012
Publication title -
the journal of infectious diseases
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.69
H-Index - 252
eISSN - 1537-6613
pISSN - 0022-1899
DOI - 10.1093/infdis/jis418
Subject(s) - plasmodium falciparum , malaria , drug , biology , pharmacology , drug resistance , in vitro , ic50 , chemistry , computational biology , biochemistry , microbiology and biotechnology , immunology
The increasing spread of drug-resistant malaria strains underscores the need for new antimalarial agents with novel modes of action (MOAs). Here, we describe a compound representative of a new class of antimalarials. This molecule, ACT-213615, potently inhibits in vitro erythrocytic growth of all tested Plasmodium falciparum strains, irrespective of their drug resistance properties, with half-maximal inhibitory concentration (IC(50)) values in the low single-digit nanomolar range. Like the clinically used artemisinins, the compound equally and very rapidly affects all 3 asexual erythrocytic parasite stages. In contrast, microarray studies suggest that the MOA of ACT-213615 is different from that of the artemisinins and other known antimalarials. ACT-213615 is orally bioavailable in mice, exhibits activity in the murine Plasmodium berghei model and efficacy comparable to that of the reference drug chloroquine in the recently established P. falciparum SCID mouse model. ACT-213615 represents a new class of potent antimalarials that merits further investigation for its clinical potential.
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