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SC83288 is a clinical development candidate for the treatment of severe malaria.

Stefano PegoraroMaëlle DuffeyThomas Dan OttoYulin WangRoman RösemannRoland BaumgartnerStefanie K FehlerLeonardo LucantoniVicky Marie AveryAlicia Moreno-SabaterDominique MazierHenri J VialStefan StroblCecilia P SanchezMichael Lanzer
Published in: Nature communications (2017)
Severe malaria is a life-threatening complication of an infection with the protozoan parasite Plasmodium falciparum, which requires immediate treatment. Safety and efficacy concerns with currently used drugs accentuate the need for new chemotherapeutic options against severe malaria. Here we describe a medicinal chemistry program starting from amicarbalide that led to two compounds with optimized pharmacological and antiparasitic properties. SC81458 and the clinical development candidate, SC83288, are fast-acting compounds that can cure a P. falciparum infection in a humanized NOD/SCID mouse model system. Detailed preclinical pharmacokinetic and toxicological studies reveal no observable drawbacks. Ultra-deep sequencing of resistant parasites identifies the sarco/endoplasmic reticulum Ca2+ transporting PfATP6 as a putative determinant of resistance to SC81458 and SC83288. Features, such as fast parasite killing, good safety margin, a potentially novel mode of action and a distinct chemotype support the clinical development of SC83288, as an intravenous application for the treatment of severe malaria.
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