2019
AgBR1 antibodies delay lethal Aedes aegypti-borne West Nile virus infection in mice
Uraki R, Hastings AK, Brackney DE, Armstrong PM, Fikrig E. AgBR1 antibodies delay lethal Aedes aegypti-borne West Nile virus infection in mice. Npj Vaccines 2019, 4: 23. PMID: 31312526, PMCID: PMC6614468, DOI: 10.1038/s41541-019-0120-x.Peer-Reviewed Original ResearchWest Nile virus infectionWest Nile virusVirus infectionInfected Aedes aegypti mosquitoesZika virus pathogenesisMosquito salivary proteinsViral loadAedes aegypti mosquitoesLethal infectionVirus pathogenesisSevere diseaseInfectionNile virusAegypti mosquitoesMiceAntibodiesSalivary proteinsMosquitoesMeningoencephalitisPathogenesisAgBR1DiseaseAedes 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 systemLoss 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
2012
Semaphorin 7A Contributes to West Nile Virus Pathogenesis through TGF-β1/Smad6 Signaling
Sultana H, Neelakanta G, Foellmer HG, Montgomery RR, Anderson JF, Koski RA, Medzhitov RM, Fikrig E. Semaphorin 7A Contributes to West Nile Virus Pathogenesis through TGF-β1/Smad6 Signaling. The Journal Of Immunology 2012, 189: 3150-3158. PMID: 22896629, PMCID: PMC3496209, DOI: 10.4049/jimmunol.1201140.Peer-Reviewed Original ResearchConceptsRole of Sema7AWNV infectionSemaphorin 7ATGF-β1Lethal West Nile virus infectionViral pathogenesisBlood-brain barrier permeabilityWest Nile Virus PathogenesisWest Nile virus infectionMurine cortical neuronsPrimary human macrophagesViral burdenWNV pathogenesisCortical neuronsBarrier permeabilityFlaviviral infectionsVirus infectionVirus pathogenesisNervous systemImmune systemPathogenesisInfectionHuman macrophagesSema7AMice