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Altered temporal response of malaria parasites determines differential sensitivity to artemisinin

Nectarios Klonis, Stanley C. Xie, James M. McCaw, Maria P. Crespo-Ortiz, Sophie G. Zaloumis, Julie A. Simpson and Leann Tilley
Proceedings of the National Academy of Sciences of the United States of America
Vol. 110, No. 13 (March 26, 2013), pp. 5157-5162
Stable URL: http://www.jstor.org/stable/42583426
Page Count: 6
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Abstract

Reports of emerging resistance to first-line artemisinin antimalarials make it critical to define resistance mechanisms and identify in vitro correlates of resistance. Here we combine unique in vitro experimental and analytical approaches to mimic in vivo drug exposure in an effort to provide insight into mechanisms of drug resistance. Tightly synchronized parasites exposed to short drug pulses exhibit large stage-dependent differences in their drug response that correlate with hemoglobin digestion throughout most of the asexual cycle. As a result, ring-stage parasites can exhibit > 100-fold lower sensitivity to short drug pulses than trophozoites, although we identify a subpopulation of rings (2-4 h postinvasion) that exhibits hypersensitivity. We find that laboratory strains that show little differences in drug sensitivity in standard in vitro assays exhibit substantial (>95-fold) difference in sensitivity when exposed to short drug pulses. These stage-and strain-dependent differences in drug sensitivity reflect differential response lag times with rings exhibiting lag times of up to 4 h. A simple model that assumes that the parasite experiences a saturable effective drug dose describes the complex dependence of parasite viability on both drug concentration and exposure time and is used to demonstrate that small changes in the parasite's drug response profile can dramatically alter the sensitivity to artemisinins. This work demonstrates that effective resistance can arise from the interplay between the short in vivo half-life of the drug and the stage-specific lag time and provides the framework for understanding the mechanisms of drug action and parasite resistance.

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