2024
Insights into the evolution, virulence and speciation of Babesia MO1 and Babesia divergens through multiomics analyses
Singh P, Vydyam P, Fang T, Estrada K, Gonzalez L, Grande R, Kumar M, Chakravarty S, Berry V, Ranwez V, Carcy B, Depoix D, Sánchez S, Cornillot E, Abel S, Ciampossin L, Lenz T, Harb O, Sanchez-Flores A, Montero E, Le Roch K, Lonardi S, Mamoun C. Insights into the evolution, virulence and speciation of Babesia MO1 and Babesia divergens through multiomics analyses. Emerging Microbes & Infections 2024, 13: 2386136. PMID: 39148308, PMCID: PMC11370697, DOI: 10.1080/22221751.2024.2386136.Peer-Reviewed Original ResearchLeveraging genomic informationHuman babesiosisTick-borne diseasesDiseases of significanceCases of human babesiosisGenomic divergenceGenome sequenceGenomic informationMultigene familyGene functionBabesia divergensMammalian hostsAnimal healthMultiomics analysisZoonotic pathogensBabesiosisProtozoan parasitesVirulent strainsPathogensVertebrate hostsEnvironmental changesVirulenceReplication rateAntiparasitic drugsParasitesA set of diagnostic tests for detection of active Babesia duncani infection
Chand M, Vydyam P, Pal A, Thekkiniath J, Darif D, Li Z, Choi J, Magni R, Luchini A, Tonnetti L, Horn E, Tufts D, Ben Mamoun C. A set of diagnostic tests for detection of active Babesia duncani infection. International Journal Of Infectious Diseases 2024, 147: 107178. PMID: 39025200, DOI: 10.1016/j.ijid.2024.107178.Peer-Reviewed Original ResearchB. microtiB. duncaniBlood samplesLife-threatening infectionsAntigen capture assayTick-borne diseasesFatal tick-borne diseaseP. falciparumBabesia genusScreening of blood samplesBabesia speciesB. divergensActive infectionAccurate diagnosisEffective disease managementPoint-of-care testingDiagnostic testsReservoir hostsBabesiaInfectionHuman babesiosisIntraerythrocytic parasitesImmunodominant antigensMolecular assaysCapture assayEffectiveness of Two New Endochin-like Quinolones, ELQ-596 and ELQ-650, in Experimental Mouse Models of Human Babesiosis
Vydyam P, Chand M, Pou S, Winter R, Liebman K, Nilsen A, Doggett J, Riscoe M, Mamoun C. Effectiveness of Two New Endochin-like Quinolones, ELQ-596 and ELQ-650, in Experimental Mouse Models of Human Babesiosis. ACS Infectious Diseases 2024, 10: 1405-1413. PMID: 38563132, PMCID: PMC11127568, DOI: 10.1021/acsinfecdis.4c00143.Peer-Reviewed Original ResearchConceptsRadical cureEndochin-like quinolonesAgent of human malariaLethal infection modelTreatment of human babesiosisLow toxicity profileExperimental mouse modelImmunocompetent miceImmunocompromised miceFavorable pharmacological propertiesHuman malariaToxicity profileChronic modelHuman babesiosisAnimal modelsInfection modelPharmacological limitationsActivity in vitroPharmacological propertiesReduce infectionQuinolonesMiceMitochondrial electron transport chainFavorable physicochemical propertiesMonotherapy
2023
Babesia BdFE1 esterase is required for the anti-parasitic activity of the ACE inhibitor fosinopril
Vydyam P, Choi J, Gihaz S, Chand M, Gewirtz M, Thekkiniath J, Lonardi S, Gennaro J, Mamoun C. Babesia BdFE1 esterase is required for the anti-parasitic activity of the ACE inhibitor fosinopril. Journal Of Biological Chemistry 2023, 299: 105313. PMID: 37797695, PMCID: PMC10663679, DOI: 10.1016/j.jbc.2023.105313.Peer-Reviewed Original ResearchConceptsAngiotensin converting enzyme (ACE) inhibitorsACE inhibitor fosinoprilTick-borne illnessConverting Enzyme InhibitorsVector-borne parasitic diseaseClass of drugsNovel drug targetsApicomplexan parasitesMass spectrometry analysisAnti-parasitic activityHeart failureSafe therapyParasite developmentDrug targetsEnzyme inhibitorsParasitic diseasesDrug resistanceTreatment of diseasesHuman babesiosisBabesia parasitesIntraerythrocytic parasitesSuch diseasesDiseaseSpectrometry analysisParasites
2022
Babesia duncani as a Model Organism to Study the Development, Virulence, and Drug Susceptibility of Intraerythrocytic Parasites In Vitro and In Vivo
Pal AC, Renard I, Singh P, Vydyam P, Chiu JE, Pou S, Winter RW, Dodean R, Frueh L, Nilsen AC, Riscoe MK, Doggett JS, Mamoun C. Babesia duncani as a Model Organism to Study the Development, Virulence, and Drug Susceptibility of Intraerythrocytic Parasites In Vitro and In Vivo. The Journal Of Infectious Diseases 2022, 226: 1267-1275. PMID: 35512141, PMCID: PMC10233494, DOI: 10.1093/infdis/jiac181.Peer-Reviewed Original ResearchConceptsLethal infectionC3H/HeJ miceMalaria-like illnessB. duncaniMouse genetic backgroundSurvival outcomesHeJ miceSevere diseaseBabesia duncaniMouse modelDifferent mouse genetic backgroundsDrug susceptibilityBabesia microtiHuman babesiosisIntraerythrocytic parasitesUnique pathogenParasite loadMiceSpecies of BabesiaApicomplexa phylumInfectionBabesia parasitesFree merozoitesHuman erythrocytesGenetic background