Choukri Ben Mamoun, PhD
Professor of Medicine (Infectious Diseases) and of Microbial PathogenesisDownloadHi-Res Photo
Cards
Appointments
Infectious Diseases
Primary
Microbial Pathogenesis
Secondary
Additional Titles
Affiliated Faculty, Yale Institute for Global Health
About
Titles
Professor of Medicine (Infectious Diseases) and of Microbial Pathogenesis
Affiliated Faculty, Yale Institute for Global Health
Appointments
Infectious Diseases
ProfessorPrimaryMicrobial Pathogenesis
Associate Professor TenureSecondaryPathology
ProfessorSecondary
Other Departments & Organizations
Education & Training
- PhD
- University of Paris (1996)
Research
Overview
Medical Subject Headings (MeSH)
Antifungal Agents; Babesiosis; Diagnostic Techniques and Procedures; Drug Discovery; Infectious Disease Medicine; Malaria; Opportunistic Infections; Protozoan Infections; Translational Research, Biomedical
ORCID
0000-0001-5028-1400
Research at a Glance
Yale Co-Authors
Frequent collaborators of Choukri Ben Mamoun's published research.
Publications Timeline
A big-picture view of Choukri Ben Mamoun's research output by year.
Research Interests
Research topics Choukri Ben Mamoun is interested in exploring.
Pratap Vydyam, PhD
Anasuya Pal, PhD
Pallavi Singh
Lauren Lawres, MSPH
Erol Fikrig, MD
Alexia Belperron, PhD
50Publications
1,652Citations
Babesiosis
Drug Discovery
Malaria
Antifungal Agents
Publications
Featured Publications
An atlas of human vector-borne microbe interactions reveals pathogenicity mechanisms
Hart T, Sonnert N, Tang X, Chaurasia R, Allen P, Hunt J, Read C, Johnson E, Arora G, Dai Y, Cui Y, Chuang Y, Yu Q, Rahman M, Mendes M, Rolandelli A, Singh P, Tripathi A, Ben Mamoun C, Caimano M, Radolf J, Lin Y, Fingerle V, Margos G, Pal U, Johnson R, Pedra J, Azad A, Salje J, Dimopoulos G, Vinetz J, Carlyon J, Palm N, Fikrig E, Ring A. An atlas of human vector-borne microbe interactions reveals pathogenicity mechanisms. Cell 2024, 187: 4113-4127.e13. PMID: 38876107, DOI: 10.1016/j.cell.2024.05.023.Peer-Reviewed Original ResearchCitationsAltmetricConceptsCell invasionHost-microbe interactionsArthropod-borne pathogensHost sensingMicrobe interactionsTranscriptional regulationLyme disease spirocheteMicrobial interactionsExtracellular proteinsMicrobial pathogenesisEpidermal growth factorTissue colonizationEnvironmental cuesBacterial selectivityIntracellular pathogensPutative interactionsNext-generation therapeuticsPathogensFunctional investigationsInteractomeVector-borne diseasesImmune evasionPathogenic mechanismsStrainUnmet medical needEffectiveness 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 ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsRadical 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 propertiesMonotherapyBabesia duncani, a Model Organism for Investigating Intraerythrocytic Parasitism and Novel Antiparasitic Therapeutic Strategies
Fang T, Mamoun C. Babesia duncani, a Model Organism for Investigating Intraerythrocytic Parasitism and Novel Antiparasitic Therapeutic Strategies. The Journal Of Infectious Diseases 2024, 230: 263-270. PMID: 39052743, PMCID: PMC11272067, DOI: 10.1093/infdis/jiae191.Peer-Reviewed Original ResearchCitationsConceptsConsequences of malariaDevelopment of future therapiesIntraerythrocytic parasitesHost red blood cellsDrugs in vitroB. duncaniIn vitro culture systemRed blood cellsFuture therapiesTherapeutic strategiesAnimal modelsWell-annotated genomeBlood cellsResistance mechanismsPathological consequencesMode of actionBabesia duncaniCulture systemParasite biologyPathogensMalariaPlasmodiumTherapyAnimalsCulture conditionsTafenoquine-Atovaquone Combination Achieves Radical Cure and Confers Sterile Immunity in Experimental Models of Human Babesiosis
Vydyam P, Pal A, Renard I, Chand M, Kumari V, Gennaro J, Mamoun C. Tafenoquine-Atovaquone Combination Achieves Radical Cure and Confers Sterile Immunity in Experimental Models of Human Babesiosis. The Journal Of Infectious Diseases 2024, 229: 161-172. PMID: 38169301, PMCID: PMC10786256, DOI: 10.1093/infdis/jiad315.Peer-Reviewed Original ResearchCitationsAltmetricBabesia 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 ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsAngiotensin 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 analysisParasitesThe human malaria parasite Plasmodium falciparum can sense environmental changes and respond by antigenic switching
Schneider V, Visone J, Harris C, Florini F, Hadjimichael E, Zhang X, Gross M, Rhee K, Mamoun C, Kafsack B, Deitsch K. The human malaria parasite Plasmodium falciparum can sense environmental changes and respond by antigenic switching. Proceedings Of The National Academy Of Sciences Of The United States Of America 2023, 120: e2302152120. PMID: 37068249, PMCID: PMC10151525, DOI: 10.1073/pnas.2302152120.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsGene switchingGene expressionHistone methyltransferasesHuman malaria parasite Plasmodium falciparumMalaria parasite Plasmodium falciparumS-adenosylmethionineGene expression patternsMulticopy gene familiesVariant surface proteinsParasite Plasmodium falciparumHuman malaria parasiteIntracellular S-adenosylmethioninePrincipal methyl donorEpigenetic controlGene familyActive genesAntigenic switchingGene transcriptionNutrient availabilityExpression patternsMethylation modificationSAM metabolismGenetic modificationAntigenic variationSurface proteinsBabesia duncani multi-omics identifies virulence factors and drug targets
Singh P, Lonardi S, Liang Q, Vydyam P, Khabirova E, Fang T, Gihaz S, Thekkiniath J, Munshi M, Abel S, Ciampossin L, Batugedara G, Gupta M, Lu X, Lenz T, Chakravarty S, Cornillot E, Hu Y, Ma W, Gonzalez L, Sánchez S, Estrada K, Sánchez-Flores A, Montero E, Harb O, Le Roch K, Mamoun C. Babesia duncani multi-omics identifies virulence factors and drug targets. Nature Microbiology 2023, 8: 845-859. PMID: 37055610, PMCID: PMC10159843, DOI: 10.1038/s41564-023-01360-8.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsDrug targetsVirulence factorsCandidate virulence factorsRNA-seq dataIntraerythrocytic life cycleAttractive drug targetB. duncaniNuclear genomeGenome annotationApicomplexan parasitesApicomplexan pathogensEpigenetic profilesEpigenetic analysisParasite metabolismMalaria-like diseaseHuman erythrocytesLife cycle stagesBabesia speciesGenomeMetabolic requirementsCycle stagesLife cycleBiologySmall moleculesPotent inhibitorResponse to the Letter by Liu and Colleagues
Mamoun C, Vydyam P. Response to the Letter by Liu and Colleagues. The Journal Of Infectious Diseases 2024, 229: 1601-1601. PMID: 38471083, DOI: 10.1093/infdis/jiae084.Peer-Reviewed Original ResearchReply to Dow and Smith
Mamoun C, Wormser G. Reply to Dow and Smith. The Journal Of Infectious Diseases 2024, 230: 273-273. PMID: 39052753, DOI: 10.1093/infdis/jiae194.Peer-Reviewed Original ResearchCitationsProperties and predicted functions of large genes and proteins of apicomplexan parasites
Fang T, Mohseni A, Lonardi S, Mamoun C. Properties and predicted functions of large genes and proteins of apicomplexan parasites. NAR Genomics And Bioinformatics 2024, 6: lqae032. PMID: 38584870, PMCID: PMC10993292, DOI: 10.1093/nargab/lqae032.Peer-Reviewed Original ResearchConceptsApicomplexan parasitesCausative agent of toxoplasmosisProtein sizeAgent of toxoplasmosisPathogen-host interactionsToxoplasma gondii</i>Conventional metabolic pathwaysCompact genomeEukaryotic organismsEncode proteinsEvolutionary constraintsNutrient acquisitionApicomplexan pathogensEvolutionary pressureAntigenic variationMetabolic pathwaysExpression patternsLarger proteinsParasitesCausative agentProteinGenesImmune evasionErythrocyte invasionPlasmodium falciparum</i>
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Media
- The image shows the final developmental stage (schizont) of the human malaria parasite Plasmodium falciparum during its intra-erythrocytic life cycle in human red blood cells.
News
- October 29, 2024
Noninvasive malaria test could be global game changer
- October 24, 2024
Further Babesiosis Biology, Pathogenicity Research Underway at Yale
- September 27, 2024
Team Science Leads to Antimalarial Drug Discovery
- July 31, 2024
Making Antifungal Medications More Effective
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