2021
Tick extracellular vesicles enable arthropod feeding and promote distinct outcomes of bacterial infection
Oliva Chávez AS, Wang X, Marnin L, Archer NK, Hammond HL, Carroll EEM, Shaw DK, Tully BG, Buskirk AD, Ford SL, Butler LR, Shahi P, Morozova K, Clement CC, Lawres L, Neal A, Mamoun CB, Mason KL, Hobbs BE, Scoles GA, Barry EM, Sonenshine DE, Pal U, Valenzuela JG, Sztein MB, Pasetti MF, Levin ML, Kotsyfakis M, Jay SM, Huntley JF, Miller LS, Santambrogio L, Pedra JHF. Tick extracellular vesicles enable arthropod feeding and promote distinct outcomes of bacterial infection. Nature Communications 2021, 12: 3696. PMID: 34140472, PMCID: PMC8211691, DOI: 10.1038/s41467-021-23900-8.Peer-Reviewed Original ResearchMeSH KeywordsAnaplasma phagocytophilumAnimalsArthropodsBacterial InfectionsCell LineDermacentorExtracellular VesiclesFrancisella tularensisGene OntologyHumansInflammationIntravital MicroscopyIxodesMaleMiceMice, Inbred C57BLMice, KnockoutMicroscopy, Electron, TransmissionProteomicsR-SNARE ProteinsSkinTandem Mass SpectrometryTicksT-LymphocytesVesicle-Associated Membrane Protein 2ConceptsExtracellular vesiclesBiology of arthropodsSynaptobrevin 2Pathogen Francisella tularensisMammalian hostsArthropodsVector feedingDistinct outcomesPathogen transmissionVesiclesMicrobial spreadingVector-borne diseasesFrancisella tularensisBacterial infectionsTicks DermacentorIxodes scapularisAnaplasma phagocytophilumBiologySkin immunitySnareDendritic epidermal T cellsPathogensHostT cellsTularensis
2020
Anti-PfGARP activates programmed cell death of parasites and reduces severe malaria
Raj DK, Das Mohapatra A, Jnawali A, Zuromski J, Jha A, Cham-Kpu G, Sherman B, Rudlaff RM, Nixon CE, Hilton N, Oleinikov AV, Chesnokov O, Merritt J, Pond-Tor S, Burns L, Jolly G, Ben Mamoun C, Kabyemela E, Muehlenbachs A, Lambert L, Orr-Gonzalez S, Gnädig NF, Fidock DA, Park S, Dvorin JD, Pardi N, Weissman D, Mui BL, Tam YK, Friedman JF, Fried M, Duffy PE, Kurtis JD. Anti-PfGARP activates programmed cell death of parasites and reduces severe malaria. Nature 2020, 582: 104-108. PMID: 32427965, PMCID: PMC7372601, DOI: 10.1038/s41586-020-2220-1.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultAnimalsAntibodies, ProtozoanAntigens, ProtozoanAotidaeApoptosisCaspasesChildCohort StudiesDNA, ProtozoanEnzyme ActivationErythrocytesFemaleHumansIntercellular Signaling Peptides and ProteinsKenyaMalaria VaccinesMalaria, FalciparumMaleMiceParasitesPlasmodium falciparumProtozoan ProteinsTanzaniaTrophozoitesVacuolesConceptsTrophozoite-infected erythrocytesSevere malariaParasite antigensLongitudinal cohort studyPlasma of childrenCell deathNon-human primatesCohort studyEffective vaccineTanzanian childrenParasite densityInvasion of hepatocytesStage parasitesMalariaPlasmodium falciparumAntibodiesFalciparumKenyan adolescentsVaccineAntigenErythrocytesDeathChildrenInvasionParasites
2018
BmGPAC, an Antigen Capture Assay for Detection of Active Babesia microti Infection
Thekkiniath J, Mootien S, Lawres L, Perrin BA, Gewirtz M, Krause PJ, Williams S, Doggett J, Ledizet M, Mamoun C. BmGPAC, an Antigen Capture Assay for Detection of Active Babesia microti Infection. Journal Of Clinical Microbiology 2018, 56: 10.1128/jcm.00067-18. PMID: 30093394, PMCID: PMC6156295, DOI: 10.1128/jcm.00067-18.Peer-Reviewed Original ResearchConceptsHuman babesiosisBabesia microti infectionCapture enzyme-linked immunosorbent assayAntigen capture enzyme-linked immunosorbent assayAntigen capture assayEnzyme-linked immunosorbent assayZoonotic infectious diseaseAcute infectionBlood transfusionAsymptomatic infectionMicroti infectionReal-time PCRBlood supplyAnimal reservoir hostsDonor bloodEpidemiological surveyHuman patientsImmune systemSerological assaysImmunodominant antigensInfectionInfectious diseasesIntraerythrocytic protozoan parasitePatientsImmunosorbent assay
2013
Plasmodium falciparum phosphoethanolamine methyltransferase is essential for malaria transmission
Bobenchik AM, Witola WH, Augagneur Y, Lochlainn L, Garg A, Pachikara N, Choi JY, Zhao YO, Usmani-Brown S, Lee A, Adjalley SH, Samanta S, Fidock DA, Voelker DR, Fikrig E, Mamoun C. Plasmodium falciparum phosphoethanolamine methyltransferase is essential for malaria transmission. Proceedings Of The National Academy Of Sciences Of The United States Of America 2013, 110: 18262-18267. PMID: 24145416, PMCID: PMC3831454, DOI: 10.1073/pnas.1313965110.Peer-Reviewed Original ResearchConceptsAsexual replicationGametocyte developmentFunctional complementation assaysPhosphoethanolamine N-methyltransferaseHost serineComplementation assaysMalaria transmissionGenetic diversityPhosphoethanolamine methyltransferaseGametocyte differentiationFemale gametocytesSpecificity of inhibitionMetabolic analysisSynthesis of phosphatidylcholineGametocytogenesisChemical screeningPlasmodium speciesAnopheles mosquitoesN-methyltransferaseLow micromolar rangePathwayReplicationHuman erythrocytesParasitesGlobal burden