Publication | Closed Access
Enantiomeric 1,2,4‐Trioxanes Display Equivalent in vitro Antimalarial Activity Versus <i>Plasmodium falciparum</i> Malaria Parasites: Implications for the Molecular Mechanism of Action of the Artemisinins
53
Citations
26
References
2005
Year
Bioorganic ChemistryTrioxane EnantiomersAntiparasitic AgentMalariaImmunologyPharmaceutical ChemistryDisplay EquivalentDrug ResistanceMolecular PharmacologyMedicinal ChemistryPlasmodium Falciparum StrainsPure EnantiomersParasitologyPhytoalexinMolecular MechanismPharmacologyNatural SciencesParasite ControlEnantiomeric 1,2,4‐TrioxanesAntiparasitic AgentsMedicineDrug Discovery
The aim of this study was to synthesise pure enantiomers of potent antimalarial 1,2,4-trioxanes, which are related to the natural antimalarial artemisinin, and then to assay each against a panel of Plasmodium falciparum strains. The working hypothesis was that if the artemisinin derivatives interact with a specific protein-target site, then there should be stereoselective differences in their activity. In five different P. falciparum isolates, however, the trioxane enantiomers (+)-7 a, (-)-7 a and (+)-7 b, (-)-7 b, showed the same level of in vitro antiparasitic activity.
| Year | Citations | |
|---|---|---|
Page 1
Page 1