2024
A kalihinol analog disrupts apicoplast function and vesicular trafficking in P. falciparum malaria
Chahine Z, Abel S, Hollin T, Barnes G, Chung J, Daub M, Renard I, Choi J, Vydyam P, Pal A, Alba-Argomaniz M, Banks C, Kirkwood J, Saraf A, Camino I, Castaneda P, Cuevas M, De Mercado-Arnanz J, Fernandez-Alvaro E, Garcia-Perez A, Ibarz N, Viera-Morilla S, Prudhomme J, Joyner C, Bei A, Florens L, Ben Mamoun C, Vanderwal C, Le Roch K. A kalihinol analog disrupts apicoplast function and vesicular trafficking in P. falciparum malaria. Science 2024, 385: eadm7966. PMID: 39325875, DOI: 10.1126/science.adm7966.Peer-Reviewed Original ResearchConceptsP. falciparum malariaHumanized mouse modelPlasmodium falciparum</i> strainsIn vivo studiesParasite apicoplastDrug sensitivityTherapeutic profileVesicular traffickingGenomic analysisLipid biogenesisSecretory machineryAsexual replicationGenetic analysisReduced susceptibilityCellular traffickingApicoplast functionStrong efficacyMED6Sexual differentiationHemolytic activityDrug pipelineApicoplastKalihinolTraffickingMalaria
2010
In Vitro Genetic Analysis of an Erythrocyte Determinant of Malaria Infection
Bei AK, Brugnara C, Duraisingh MT. In Vitro Genetic Analysis of an Erythrocyte Determinant of Malaria Infection. The Journal Of Infectious Diseases 2010, 202: 1722-1727. PMID: 20958212, PMCID: PMC3107553, DOI: 10.1086/657157.Peer-Reviewed Original ResearchConceptsGenetic analysisErythrocyte determinantsSystematic functional analysisDirect genetic analysisErythrocyte biologyInvasion of erythrocytesIsogenic backgroundP. falciparum invasionGene expressionFunctional analysisParasite invasionObligatory stepLentiviral transductionHost receptorsGlycophorin ALife cyclePlasmodium falciparumCulture systemInvasionMalaria infectionUnambiguous identificationTransductionBiologyParasitesErythrocytes