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Bestatin-based chemical biology strategy reveals distinct roles for malaria M1- and M17-family aminopeptidases.

Proceedings of the National Academy of Sciences of the United States of America (2011-08-17)
Michael B Harbut, Geetha Velmourougane, Seema Dalal, Gilana Reiss, James C Whisstock, Ozlem Onder, Dustin Brisson, Sheena McGowan, Michael Klemba, Doron C Greenbaum
RESUMEN

Malaria causes worldwide morbidity and mortality, and while chemotherapy remains an excellent means of malaria control, drug-resistant parasites necessitate the discovery of new antimalarials. Peptidases are a promising class of drug targets and perform several important roles during the Plasmodium falciparum erythrocytic life cycle. Herein, we report a multidisciplinary effort combining activity-based protein profiling, biochemical, and peptidomic approaches to functionally analyze two genetically essential P. falciparum metallo-aminopeptidases (MAPs), PfA-M1 and Pf-LAP. Through the synthesis of a suite of activity-based probes (ABPs) based on the general MAP inhibitor scaffold, bestatin, we generated specific ABPs for these two enzymes. Specific inhibition of PfA-M1 caused swelling of the parasite digestive vacuole and prevented proteolysis of hemoglobin (Hb)-derived oligopeptides, likely starving the parasite resulting in death. In contrast, inhibition of Pf-LAP was lethal to parasites early in the life cycle, prior to the onset of Hb degradation suggesting that Pf-LAP has an essential role outside of Hb digestion.

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Sigma-Aldrich
Bestatin hydrochloride, ≥98% (HPLC)
Sigma-Aldrich
N-[(2S,3R)-3-Amino-2-hydroxy-4-phenylbutyryl]-L-leucine, 97%