2021
AgBR1 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
TRiC/CCT Complex, a Binding Partner of NS1 Protein, Supports the Replication of Zika Virus in Both Mammalians and Mosquitoes
Wang Y, Uraki R, Hwang J, Fikrig E. TRiC/CCT Complex, a Binding Partner of NS1 Protein, Supports the Replication of Zika Virus in Both Mammalians and Mosquitoes. Viruses 2020, 12: 519. PMID: 32397176, PMCID: PMC7290343, DOI: 10.3390/v12050519.Peer-Reviewed Original ResearchConceptsZika virusZIKV replicationZIKV NS1 proteinGuillain-Barré syndromeNS1 proteinTRiC/CCT complexPromising therapeutic targetZIKV infectionCongenital microcephalySpecific treatmentTherapeutic targetHost factorsVirusMosquitoesSyndromeVaccineSymptomsInfectionMicrocephalyProteinReplicationImportant roleVaccination with Aedes aegypti AgBR1 Delays Lethal Mosquito-Borne Zika Virus Infection in Mice
Wang Y, Marin-Lopez A, Jiang J, Ledizet M, Fikrig E. Vaccination with Aedes aegypti AgBR1 Delays Lethal Mosquito-Borne Zika Virus Infection in Mice. Vaccines 2020, 8: 145. PMID: 32218189, PMCID: PMC7348886, DOI: 10.3390/vaccines8020145.Peer-Reviewed Original ResearchZika virusZIKV infectionGuillain-Barre syndromeMosquito salivary proteinsZika virus infectionNeurological complicationsAcute illnessFetal microcephalyPassive immunizationActive immunizationAsymptomatic infectionInflammatory responseAedes aegypti mosquitoesVirus infectionBite siteInfectionAegypti mosquitoesImmunizationMiceSalivary proteinsAgBR1MosquitoesComplicationsHeadacheVaccination
2019
Loss of the TAM Receptor Axl Ameliorates Severe Zika Virus Pathogenesis and Reduces Apoptosis in Microglia
Hastings AK, Hastings K, Uraki R, Hwang J, Gaitsch H, Dhaliwal K, Williamson E, Fikrig E. Loss of the TAM Receptor Axl Ameliorates Severe Zika Virus Pathogenesis and Reduces Apoptosis in Microglia. IScience 2019, 13: 339-350. PMID: 30884311, PMCID: PMC6424058, DOI: 10.1016/j.isci.2019.03.003.Peer-Reviewed Original ResearchZIKV infectionZIKV pathogenesisVirus infectionAxl-deficient miceZika virus pathogenesisRole of AxlZika virus infectionAlpha/beta receptorTAM receptor AxlInterferon alpha/beta receptorTAM receptorsVirus pathogenesisMouse modelEntry receptorBeta receptorsReceptor AxlViral infectionAXL inhibitorAxl receptorInfectionPathogenesisAxlMiceLess apoptosisReceptors
2018
Altered vector competence in an experimental mosquito-mouse transmission model of Zika infection
Uraki R, Hastings AK, Gloria-Soria A, Powell JR, Fikrig E. Altered vector competence in an experimental mosquito-mouse transmission model of Zika infection. PLOS Neglected Tropical Diseases 2018, 12: e0006350. PMID: 29505571, PMCID: PMC5854422, DOI: 10.1371/journal.pntd.0006350.Peer-Reviewed Original ResearchConceptsZIKV transmissionZika virus infectionNatural transmission routeInfected miceZIKV infectionZika infectionTesting vaccinesVirus infectionIntrathoracic injectionAnimal modelsZIKVInfectionMiceTransmission routesBlood mealVector competenceVector competencyMosquitoesTransmission modelVertebrate hostsMosquito modelPathogenesisVaccineType I interferons instigate fetal demise after Zika virus infection
Yockey LJ, Jurado KA, Arora N, Millet A, Rakib T, Milano KM, Hastings AK, Fikrig E, Kong Y, Horvath TL, Weatherbee S, Kliman HJ, Coyne CB, Iwasaki A. Type I interferons instigate fetal demise after Zika virus infection. Science Immunology 2018, 3 PMID: 29305462, PMCID: PMC6049088, DOI: 10.1126/sciimmunol.aao1680.Peer-Reviewed Original ResearchConceptsZika virus infectionZIKV infectionI IFNsI interferonType I interferonGrowth restrictionFetal demiseVirus infectionSevere fetal growth restrictionType I IFNsChorionic villous explantsAdverse fetal outcomesCongenital viral infectionFetal growth restrictionMaternal-fetal barrierType IFunctional type IPlacental damageFetal outcomesPregnancy complicationsEarly pregnancyFetal resorptionZIKV diseasePregnant damsSpontaneous abortion
2017
TAM Receptors Are Not Required for Zika Virus Infection in Mice
Hastings AK, Yockey LJ, Jagger BW, Hwang J, Uraki R, Gaitsch HF, Parnell LA, Cao B, Mysorekar IU, Rothlin CV, Fikrig E, Diamond MS, Iwasaki A. TAM Receptors Are Not Required for Zika Virus Infection in Mice. Cell Reports 2017, 19: 558-568. PMID: 28423319, PMCID: PMC5485843, DOI: 10.1016/j.celrep.2017.03.058.Peer-Reviewed Original ResearchConceptsTAM receptorsZika virusAbsence of IFNARGlobal public health concernNon-pregnant miceZika virus infectionAdult female micePublic health concernZIKV entryZIKV infectionFemale miceViral inoculationZIKV replicationMertk (TAM) receptorsYoung miceVirus infectionEntry receptorViral titersViral replicationCell tropismInfectionHealth concernMiceAxlReceptorsZika virus causes testicular atrophy
Uraki R, Hwang J, Jurado KA, Householder S, Yockey LJ, Hastings AK, Homer RJ, Iwasaki A, Fikrig E. Zika virus causes testicular atrophy. Science Advances 2017, 3: e1602899. PMID: 28261663, PMCID: PMC5321463, DOI: 10.1126/sciadv.1602899.Peer-Reviewed Original ResearchConceptsZika virusTesticular atrophyAcute viremic phaseZIKV-infected miceMosquito-borne flavivirusTestosterone-producing Leydig cellsProgressive testicular atrophyZIKV persistenceFetal infectionViremic phaseNeonatal abnormalitiesSerum testosteroneZIKV infectionNeurological dysfunctionSubcutaneous injectionZIKV replicationLeydig cellsVirus replicationVertical transmissionEpithelial cellsMiceViral RNAReproductive deficienciesAtrophyMale fertility
2016
Zika virus infection of Hofbauer cells
Simoni MK, Jurado KA, Abrahams VM, Fikrig E, Guller S. Zika virus infection of Hofbauer cells. American Journal Of Reproductive Immunology 2016, 77 PMID: 27966815, PMCID: PMC5299062, DOI: 10.1111/aji.12613.Peer-Reviewed Original ResearchConceptsCongenital Zika syndromeHofbauer cellsZika virusZIKV infectionDevelopment of CZSDengue virusSpread of ZIKVVertical transmissionFetal placental macrophagesPlacental Hofbauer cellsZika virus infectionAntenatal infectionNeonatal outcomesPlacental responsesZika syndromeVirus infectionCurrent evidenceCongenital abnormalitiesRecent studiesNeonatal developmentFetal capillariesRelated flavivirusesInfectionSpecific molecular mechanismsCertain viruses