2023
Adiponectin in the mammalian host influences ticks’ acquisition of the Lyme disease pathogen Borrelia
Tang X, Cao Y, Booth C, Arora G, Cui Y, Matias J, Fikrig E. Adiponectin in the mammalian host influences ticks’ acquisition of the Lyme disease pathogen Borrelia. PLOS Biology 2023, 21: e3002331. PMID: 37862360, PMCID: PMC10619873, DOI: 10.1371/journal.pbio.3002331.Peer-Reviewed Original ResearchConceptsAdipocyte-derived hormoneBite siteAdiponectin-deficient miceInfiltration of neutrophilsTick bite sitePro-inflammatory responseWild-type animalsIxodes scapularis ticksIL-1βVascular leakageHistamine releaseTick biteAdiponectinInfectious diseasesLyme disease agentBlood feeding arthropodsBorrelia burgdorferiScapularis ticksAnimal infectious diseasesBlood feedingB. burgdorferi survivalHuman bloodHormonePathogen acquisitionMammalian hostsDevelopment of an mRNA-lipid nanoparticle vaccine against Lyme disease
Pine M, Arora G, Hart T, Bettini E, Gaudette B, Muramatsu H, Tombácz I, Kambayashi T, Tam Y, Brisson D, Allman D, Locci M, Weissman D, Fikrig E, Pardi N. Development of an mRNA-lipid nanoparticle vaccine against Lyme disease. Molecular Therapy 2023, 31: 2702-2714. PMID: 37533256, PMCID: PMC10492027, DOI: 10.1016/j.ymthe.2023.07.022.Peer-Reviewed Original ResearchConceptsLyme diseaseImmune responseCell-mediated immune responsesLyme disease vaccinePotent immune responsesProtein subunit vaccinesSARS-CoV-2Surface protein AVector-borne infectious diseasesMRNA-LNP vaccineOuter surface protein ASingle immunizationProtective efficacyMRNA vaccinesClinical vaccinesDisease vaccineNanoparticle vaccineSubunit vaccineVaccine developmentVaccineBacterial infectionsMRNA-LNPInfectious diseasesDiseaseMRNA platform
2022
A tick C1q protein alters infectivity of the Lyme disease agent by modulating interferon γ
Tang X, Arora G, Matias J, Hart T, Cui Y, Fikrig E. A tick C1q protein alters infectivity of the Lyme disease agent by modulating interferon γ. Cell Reports 2022, 41: 111673. PMID: 36417869, PMCID: PMC9909562, DOI: 10.1016/j.celrep.2022.111673.Peer-Reviewed Original ResearchTick transmission of Borrelia burgdorferi to the murine host is not influenced by environmentally acquired midgut microbiota
Narasimhan S, Rajeevan N, Graham M, Wu MJ, DePonte K, Marion S, Masson O, O’Neal A, Pedra JHF, Sonenshine DE, Fikrig E. Tick transmission of Borrelia burgdorferi to the murine host is not influenced by environmentally acquired midgut microbiota. Microbiome 2022, 10: 173. PMID: 36253842, PMCID: PMC9575305, DOI: 10.1186/s40168-022-01378-w.Peer-Reviewed Original ResearchCD55 Facilitates Immune Evasion by Borrelia crocidurae, an Agent of Relapsing Fever
Arora G, Lynn GE, Tang X, Rosen CE, Hoornstra D, Sajid A, Hovius JW, Palm NW, Ring AM, Fikrig E. CD55 Facilitates Immune Evasion by Borrelia crocidurae, an Agent of Relapsing Fever. MBio 2022, 13: e01161-22. PMID: 36036625, PMCID: PMC9600505, DOI: 10.1128/mbio.01161-22.Peer-Reviewed Original ResearchConceptsRole of CD55Fever infectionImmune evasionSurface of erythrocytesRosette formationB. crociduraeB. persicaHost factorsBorrelia crociduraeAcute febrile illnessInflammatory cytokine levelsElevated proinflammatory cytokinesExpression of CD55Causative agentErythrocyte rosette formationFacilitates Immune EvasionComplement-mediated lysisHost-pathogen interactionsCytokine levelsFebrile illnessSignificant morbidityProinflammatory cytokinesHigh-throughput screenC5a levelsCD55 expressionUse of host lipids by the Lyme disease spirochete may lead to biomarkers
Arora G, Hart T, Fikrig E. Use of host lipids by the Lyme disease spirochete may lead to biomarkers. Journal Of Clinical Investigation 2022, 132: e158254. PMID: 35289311, PMCID: PMC8920323, DOI: 10.1172/jci158254.Peer-Reviewed Original ResearchConceptsB. burgdorferi infectionLyme diseaseBurgdorferi infectionCareful clinical assessmentCommon tick-borne diseaseAnti-lipid antibodiesProduction of antibodiesTick-borne diseaseHost lipidsAntibody titersLyme disease agent Borrelia burgdorferiClinical assessmentCurrent biomarkersMurine modelDiseaseSerum samplesLyme disease spirocheteAntibodiesBorrelia burgdorferiInfectionBiomarkersPatientsLipidsSyphilisPhosphatidic acid
2021
Immunomodulation by Mosquito Salivary Protein AgSAP Contributes to Early Host Infection by Plasmodium
Arora G, Sajid A, Chuang YM, Dong Y, Gupta A, Gambardella K, DePonte K, Almeras L, Dimopolous G, Fikrig E. Immunomodulation by Mosquito Salivary Protein AgSAP Contributes to Early Host Infection by Plasmodium. MBio 2021, 12: e03091-21. PMID: 34903042, PMCID: PMC8669493, DOI: 10.1128/mbio.03091-21.Peer-Reviewed Original ResearchConceptsLocal inflammatory responsePlasmodium berghei sporozoitesSalivary antigensInflammatory responseBerghei sporozoitesPlasmodium falciparumMosquito salivary proteinsPrevention of malariaLocal host responseAnopheline mosquitoesVertebrate hostsHost responseSaliva secretionVaccine developmentMalariaEpidemiological analysisGenerate antibodiesAntigenArthropod salivaDisease prevalenceInfectionSaliva componentsSporozoitesVector-borne diseasesDiseaseA Mosquito AgTRIO Monoclonal Antibody Reduces Early Plasmodium Infection of Mice
Chuang YM, Tang XD, Fikrig E. A Mosquito AgTRIO Monoclonal Antibody Reduces Early Plasmodium Infection of Mice. Infection And Immunity 2021, 90: e00359-21. PMID: 34724388, PMCID: PMC8788779, DOI: 10.1128/iai.00359-21.Peer-Reviewed Original ResearchConceptsMonoclonal antibodiesFuture malaria vaccinesInfection of miceIsotype monoclonal antibodyVector antigensProtective immunityPassive immunizationMalaria vaccinePlasmodium infectionPassive transferProtein monoclonal antibodySignificant protectionSynergistic protectionMiceInfectionAntibodiesFc regionAntiserumVertebrate hostsProtein TrioImmunizationVaccineMalariaAntigenImmunityAgBR1 and NeSt1 antisera protect mice from Aedes aegypti-borne Zika infection
Marin-Lopez A, Wang Y, Jiang J, Ledizet M, Fikrig E. AgBR1 and NeSt1 antisera protect mice from Aedes aegypti-borne Zika infection. Vaccine 2021, 39: 1675-1679. PMID: 33622591, PMCID: PMC7990057, DOI: 10.1016/j.vaccine.2021.01.072.Peer-Reviewed Original ResearchConceptsMosquito saliva proteinsPassive immunizationZIKV infectionEarly host responseDiverse clinical symptomsViral burdenSaliva proteinsClinical symptomsVaccine strategiesZika infectionHost responseModel antigenInfectionPartial protectionMiceImmunizationZIKVAntiserumIndividual antiseraAgBR1ViremiaSymptomsAntigenBloodAntibodies
2020
The Effects of A Mosquito Salivary Protein on Sporozoite Traversal of Host Cells
Chuang YM, Agunbiade TA, Tang XD, Freudzon M, Almeras L, Fikrig E. The Effects of A Mosquito Salivary Protein on Sporozoite Traversal of Host Cells. The Journal Of Infectious Diseases 2020, 224: 544-553. PMID: 33306099, PMCID: PMC8328219, DOI: 10.1093/infdis/jiaa759.Peer-Reviewed Original ResearchConceptsPassive immunizationCell traversal activityMosquito saliva proteinsMosquito salivary proteinsMosquito salivaNeutrophil chemotaxisProtein monoclonal antibodyProtective effectSporozoite glidingSporozoite infectivitySporozoite traversalMonoclonal antibodiesHost skinAnopheles mosquitoesProtein 1ImmunizationBlood mealSporozoitesSalivaMiceHost cellsSaliva proteinsSalivary proteinsAntiserumVertebrate hostsAn Ixodes scapularis Protein Disulfide Isomerase Contributes to Borrelia burgdorferi Colonization of the Vector
Cao Y, Rosen C, Arora G, Gupta A, Booth CJ, Murfin KE, Cerny J, Lopez A, Chuang YM, Tang X, Pal U, Ring A, Narasimhan S, Fikrig E. An Ixodes scapularis Protein Disulfide Isomerase Contributes to Borrelia burgdorferi Colonization of the Vector. Infection And Immunity 2020, 88: 10.1128/iai.00426-20. PMID: 32928964, PMCID: PMC7671890, DOI: 10.1128/iai.00426-20.Peer-Reviewed Original ResearchConceptsTick gutTick bite siteVector-host interfaceAbility of spirochetesProtein disulfide isomerase A3Infected vertebrate hostsInflammatory responseBite siteLyme diseaseVertebrate hostsGutTick proteinsAdditional targetsMiceSpirochete life cycleSpirochete survivalArthropod vectorsSpirochetesRNA interferenceIllnessTicksA human secretome library screen reveals a role for Peptidoglycan Recognition Protein 1 in Lyme borreliosis
Gupta A, Arora G, Rosen CE, Kloos Z, Cao Y, Cerny J, Sajid A, Hoornstra D, Golovchenko M, Rudenko N, Munderloh U, Hovius JW, Booth CJ, Jacobs-Wagner C, Palm NW, Ring AM, Fikrig E. A human secretome library screen reveals a role for Peptidoglycan Recognition Protein 1 in Lyme borreliosis. PLOS Pathogens 2020, 16: e1009030. PMID: 33175909, PMCID: PMC7657531, DOI: 10.1371/journal.ppat.1009030.Peer-Reviewed Original ResearchConceptsPeptidoglycan recognition protein 1B. burgdorferi infectionB. burgdorferiBurgdorferi infectionHost responseLow serum IgG levelsCommon vector-borne illnessDiverse host responsesSerum IgG levelsProtein 1Vector-borne illnessImmune dysregulationIgG levelsBorreliacidal activityBurgdorferi sensu latoHuman extracellular proteinsSpirochete burdenTick biteB. burgdorferi sensu latoSpirochete Borrelia burgdorferiNervous systemLyme borreliosisLyme diseaseInfectionBorrelia burgdorferiA Critical Role for STING Signaling in Limiting Pathogenesis of Chikungunya Virus
Geng T, Lin T, Yang D, Harrison AG, Vella AT, Fikrig E, Wang P. A Critical Role for STING Signaling in Limiting Pathogenesis of Chikungunya Virus. The Journal Of Infectious Diseases 2020, 223: 2186-2196. PMID: 33161431, PMCID: PMC8205639, DOI: 10.1093/infdis/jiaa694.Peer-Reviewed Original ResearchConceptsVirus infectionSTING signalingGt miceType I IFN responseChikungunya virus infectionImmune cell infiltrationWild-type miceActivator of neutrophilsInnate immune responseExpression of interferonI IFN responseExpression of chemoattractantsRNA virus infectionDNA virus infectionInterferon genes (STING) pathwayCHIKV arthritisViremic stageArthritis progressionViral burdenArthritis pathogenesisChemokine responsesCell infiltrationJoint damageImmune responseSTING deficiencyCXCL10 Signaling Contributes to the Pathogenesis of Arthritogenic Alphaviruses
Lin T, Geng T, Harrison AG, Yang D, Vella AT, Fikrig E, Wang P. CXCL10 Signaling Contributes to the Pathogenesis of Arthritogenic Alphaviruses. Viruses 2020, 12: 1252. PMID: 33147869, PMCID: PMC7692144, DOI: 10.3390/v12111252.Peer-Reviewed Original ResearchConceptsChikungunya virusAlphaviral arthritisArthritogenic alphavirusesLargest immune cell populationMacrophages/T cellsImmune cell populationsInflammatory immune responseLow viral loadWild-type miceO'nyong-nyong virusWild-type animalsRheumatic manifestationsImmune infiltratesViral loadT cellsImmune responseAlphaviral diseaseArthritic diseasesTherapeutic targetCXCL10PathogenesisViral RNACell populationsArthritisFootpadMacrophage scavenger receptor 1 controls Chikungunya virus infection through autophagy in mice
Yang L, Geng T, Yang G, Ma J, Wang L, Ketkar H, Yang D, Lin T, Hwang J, Zhu S, Wang Y, Dai J, You F, Cheng G, Vella AT, Flavell RA, Fikrig E, Wang P. Macrophage scavenger receptor 1 controls Chikungunya virus infection through autophagy in mice. Communications Biology 2020, 3: 556. PMID: 33033362, PMCID: PMC7545163, DOI: 10.1038/s42003-020-01285-6.Peer-Reviewed Original ResearchConceptsMacrophage scavenger receptor 1Scavenger receptor 1Chikungunya virusReceptor 1Antiviral roleType I IFN responseChikungunya virus infectionLow-density lipoproteinImportant antiviral roleI IFN responseMarkers of autophagyCHIKV infectionViral loadArthritogenic alphavirusesVirus infectionCHIKV replicationATG5-ATG12Antiviral actionKnockout miceMSR1 expressionIFN responseInfectionMiceNsp1 proteinAutophagic functionRepeat tick exposure elicits distinct immune responses in guinea pigs and mice
Kurokawa C, Narasimhan S, Vidyarthi A, Booth CJ, Mehta S, Meister L, Diktas H, Strank N, Lynn GE, DePonte K, Craft J, Fikrig E. Repeat tick exposure elicits distinct immune responses in guinea pigs and mice. Ticks And Tick-borne Diseases 2020, 11: 101529. PMID: 32993942, PMCID: PMC7530331, DOI: 10.1016/j.ttbdis.2020.101529.Peer-Reviewed Original ResearchConceptsGuinea pigsElicit distinct immune responsesDistinct immune responsesGuinea pig modelLocal blood flowImmune animalsInflammatory pathwaysTick rejectionMechanisms of resistanceImmune responseMouse modelVaccine candidatesBite siteBlood flowPig modelCoagulation pathwayComplement activationAcquired ResistanceProtective antigenTick detachmentTick proteinsBlood mealMiceTick infestationRNA sequencing
2019
Anopheles gambiae Lacking AgTRIO Inefficiently Transmits Plasmodium berghei to Mice
Chuang YM, Freudzon M, Yang J, Dong Y, Dimopoulos G, Fikrig E. Anopheles gambiae Lacking AgTRIO Inefficiently Transmits Plasmodium berghei to Mice. Infection And Immunity 2019, 87: 10.1128/iai.00326-19. PMID: 31285253, PMCID: PMC6704594, DOI: 10.1128/iai.00326-19.Peer-Reviewed Original ResearchConceptsBite siteControl mosquitoesMosquito salivary proteinsInfectivity of sporozoitesMosquito salivary glandsProinflammation cytokinesSporozoite infectionRNA interference-mediated silencingPlasmodium bergheiMiceSalivary glandsSporozoitesTNFExpression of genesMosquitoesSalivary proteinsBurdenExpressionVertebrate hostsSplenocytesCytokinesInfectionCell adhesionLiverBergheiBorrelia miyamotoi infection leads to cross-reactive antibodies to the C6 peptide in mice and men
Koetsveld J, Platonov A, Kuleshov K, Wagemakers A, Hoornstra D, Ang W, Szekeres S, van Duijvendijk G, Fikrig E, Embers M, Sprong H, Hovius J. Borrelia miyamotoi infection leads to cross-reactive antibodies to the C6 peptide in mice and men. Clinical Microbiology And Infection 2019, 26: 513.e1-513.e6. PMID: 31404672, DOI: 10.1016/j.cmi.2019.07.026.Peer-Reviewed Original ResearchConceptsCross-reactive antibodiesC6 peptideEnzyme immunoassayLyme borreliosisBorrelia miyamotoi infectionBMD patientsExperimental murine infectionC6 enzyme immunoassayAvailable immunoblotNegative immunoblotMiyamotoi infectionTick bitePatient seraMurine infectionPatientsReactivity testingInfectionVlsE proteinBorrelia miyamotoiBorrelia burgdorferiMiceAedes aegypti NeSt1 Protein Enhances Zika Virus Pathogenesis by Activating Neutrophils
Hastings AK, Uraki R, Gaitsch H, Dhaliwal K, Stanley S, Sproch H, Williamson E, MacNeil T, Marin-Lopez A, Hwang J, Wang Y, Grover JR, Fikrig E. Aedes aegypti NeSt1 Protein Enhances Zika Virus Pathogenesis by Activating Neutrophils. Journal Of Virology 2019, 93: 10.1128/jvi.00395-19. PMID: 30971475, PMCID: PMC6580965, DOI: 10.1128/jvi.00395-19.Peer-Reviewed Original ResearchConceptsVirus infectionBite siteMosquito salivaImmune cellsZika virusLocal immune environmentMosquito bite siteZika virus pathogenesisEarly viral replicationZika virus infectionFactor 1Pathogenesis of flavivirusesVirus-infected mosquitoesVirus-induced pathogenesisCXCL2 expressionImmune environmentPassive immunizationZIKV pathogenesisImmune microenvironmentAntibody responseZIKV replicationVirus pathogenesisMosquito bitesPrimary mouse neutrophilsImmune systemELF4 facilitates innate host defenses against Plasmodium by activating transcription of Pf4 and Ppbp
Wang D, Zhang Z, Cui S, Zhao Y, Craft S, Fikrig E, You F. ELF4 facilitates innate host defenses against Plasmodium by activating transcription of Pf4 and Ppbp. Journal Of Biological Chemistry 2019, 294: 7787-7796. PMID: 30898878, PMCID: PMC6514618, DOI: 10.1074/jbc.ra118.006321.Peer-Reviewed Original ResearchConceptsPlatelet factor 4Host defenseComponent of plateletsPro-platelet basic proteinKilling of parasitesFactor 4Innate immune moleculesInnate immune signalingInnate host defenseC chemokinesWT littermatesTranscription factor 4Control animalsImmune moleculesInnate immunityInfected erythrocytesImmune signalingInfectionExpression levelsMiceType IBasic proteinDefense peptidesPlateletsPlasmodium