2020
RUNX Binding Sites Are Enriched in Herpesvirus Genomes, and RUNX1 Overexpression Leads to Herpes Simplex Virus 1 Suppression
Kim DJ, Khoury-Hanold W, Jain PC, Klein J, Kong Y, Pope SD, Ge W, Medzhitov R, Iwasaki A. RUNX Binding Sites Are Enriched in Herpesvirus Genomes, and RUNX1 Overexpression Leads to Herpes Simplex Virus 1 Suppression. Journal Of Virology 2020, 94: 10.1128/jvi.00943-20. PMID: 32878886, PMCID: PMC7592204, DOI: 10.1128/jvi.00943-20.Peer-Reviewed Original ResearchConceptsDorsal root gangliaHSV-1 infectionNumerous viral genesHSV-2Sensory neuronsHost transcription factorsHSV-1 genomeHSV-1Dorsal root ganglion neuronsViral gene expressionMouse DRG neuronsLifelong latent infectionViral genesKnockdown of RUNX1Herpes simplex virus 1Simplex virus 1DRG neuronsGanglion neuronsRoot gangliaOverall infectionViral gene transcriptionLatent infectionHSV-2 genomeInfectionNeuroblastoma cells
2016
Viral Spread to Enteric Neurons Links Genital HSV-1 Infection to Toxic Megacolon and Lethality
Khoury-Hanold W, Yordy B, Kong P, Kong Y, Ge W, Szigeti-Buck K, Ralevski A, Horvath TL, Iwasaki A. Viral Spread to Enteric Neurons Links Genital HSV-1 Infection to Toxic Megacolon and Lethality. Cell Host & Microbe 2016, 19: 788-799. PMID: 27281569, PMCID: PMC4902295, DOI: 10.1016/j.chom.2016.05.008.Peer-Reviewed Original ResearchConceptsGenital HSV-1 infectionEnteric nervous systemHSV-1 infectionSensory nervous systemNervous systemGenital herpesToxic megacolonHSV-1Genital mucosal epithelial cellsPeripheral sensory nervous systemDorsal root gangliaPathological inflammatory responsesMucosal epithelial cellsHerpes simplex virus 1Simplex virus 1Urinary retentionEnteric neuronsLaxative treatmentAutonomic gangliaRoot gangliaInflammatory responseViral gene transcriptionMouse modelInfectionEpithelial cellsAccess of protective antiviral antibody to neuronal tissues requires CD4 T-cell help
Iijima N, Iwasaki A. Access of protective antiviral antibody to neuronal tissues requires CD4 T-cell help. Nature 2016, 533: 552-556. PMID: 27225131, PMCID: PMC4883597, DOI: 10.1038/nature17979.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibodies, ViralBiological TransportBlood-Brain BarrierB-LymphocytesCapillary PermeabilityCD4-Positive T-LymphocytesDisease Models, AnimalFemaleGanglia, SpinalHerpes GenitalisHerpesvirus 2, HumanHistocompatibility Antigens Class IImmunologic MemoryIntegrin alpha4Interferon-gammaMiceNerve TissueNervous SystemNeuronsNoseReceptors, FcSpinal CordVesiculovirus
2013
Cell type-dependent requirement of autophagy in HSV-1 antiviral defense
Yordy B, Iwasaki A. Cell type-dependent requirement of autophagy in HSV-1 antiviral defense. Autophagy 2013, 9: 236-238. PMID: 23095715, PMCID: PMC3552887, DOI: 10.4161/auto.22506.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutophagyGanglia, SpinalHerpesvirus 1, HumanHumansImmunity, InnateMiceMutationNeuronsOrgan SpecificityVirus ReplicationConceptsDRG neuronsAntiviral programI interferonHSV-1Dorsal root ganglion neuronsRobust type I IFN responseType I IFN responseMost viral infectionsAntiviral immune mechanismsAntiviral defenseHSV-1 infectionI IFN responseType I interferonInnate antiviral responseType IGanglion neuronsImmune mechanismsViral controlLess cell deathViral infectionAntiviral responseIFN responseInfection modelAntiviral defense mechanismNeurons
2012
A Neuron-Specific Role for Autophagy in Antiviral Defense against Herpes Simplex Virus
Yordy B, Iijima N, Huttner A, Leib D, Iwasaki A. A Neuron-Specific Role for Autophagy in Antiviral Defense against Herpes Simplex Virus. Cell Host & Microbe 2012, 12: 334-345. PMID: 22980330, PMCID: PMC3454454, DOI: 10.1016/j.chom.2012.07.013.Peer-Reviewed Original ResearchConceptsI interferonHSV-1 replicationDorsal root ganglionic neuronsType I IFN treatmentHerpes simplex type 1I IFN treatmentI IFNsHSV-1 infectionHerpes simplex virusNeuron-specific rolesSimplex type 1Type I interferonMucosal epithelial cellsDRG neuronsGanglionic neuronsNeurotropic virusesIFN treatmentSimplex virusViral infectionAntiviral pathwaysViral replicationType 1Antiviral strategiesLittle type INeurons