2020
m6A Modification Prevents Formation of Endogenous Double-Stranded RNAs and Deleterious Innate Immune Responses during Hematopoietic Development
Gao Y, Vasic R, Song Y, Teng R, Liu C, Gbyli R, Biancon G, Nelakanti R, Lobben K, Kudo E, Liu W, Ardasheva A, Fu X, Wang X, Joshi P, Lee V, Dura B, Viero G, Iwasaki A, Fan R, Xiao A, Flavell RA, Li HB, Tebaldi T, Halene S. m6A Modification Prevents Formation of Endogenous Double-Stranded RNAs and Deleterious Innate Immune Responses during Hematopoietic Development. Immunity 2020, 52: 1007-1021.e8. PMID: 32497523, PMCID: PMC7408742, DOI: 10.1016/j.immuni.2020.05.003.Peer-Reviewed Original ResearchConceptsDouble-stranded RNADeleterious innate immune responseMammalian hematopoietic developmentEndogenous double-stranded RNAHematopoietic developmentInnate immune responseAbundant RNA modificationMurine fetal liverPattern recognition receptor pathwaysImmune responseProtein codingDsRNA formationRNA modificationsWriter METTL3Hematopoietic defectsPerinatal lethalityNative stateConditional deletionAberrant innate immune responsesLoss of METTL3Hematopoietic failureReceptor pathwayAberrant immune responsePrevents formationFetal liver
2019
RIG-I Recognition of RNA Targets: The Influence of Terminal Base Pair Sequence and Overhangs on Affinity and Signaling
Ren X, Linehan MM, Iwasaki A, Pyle AM. RIG-I Recognition of RNA Targets: The Influence of Terminal Base Pair Sequence and Overhangs on Affinity and Signaling. Cell Reports 2019, 29: 3807-3815.e3. PMID: 31851914, DOI: 10.1016/j.celrep.2019.11.052.Peer-Reviewed Original ResearchConceptsRNA moleculesRIG-I activationBase pair sequenceHost RNA moleculesViral RNA moleculesRIG-I recognitionMolecular basisRNA variantsRNA targetsPair sequenceHuman cellsBase pairsImmune receptorsMechanisms of evasionTerminal base pairsLigand affinityWhole animalInterferon responseDeadly pathogenRNA therapeuticsMarburg virusCellsOverhangMoleculesSignaling
2016
Two interferon-independent double-stranded RNA-induced host defense strategies suppress the common cold virus at warm temperature
Foxman EF, Storer JA, Vanaja K, Levchenko A, Iwasaki A. Two interferon-independent double-stranded RNA-induced host defense strategies suppress the common cold virus at warm temperature. Proceedings Of The National Academy Of Sciences Of The United States Of America 2016, 113: 8496-8501. PMID: 27402752, PMCID: PMC4968739, DOI: 10.1073/pnas.1601942113.Peer-Reviewed Original ResearchConceptsIFN-independent mechanismsEpithelial cellsHost defense strategiesHost cell deathIFN inductionHuman bronchial epithelial cellsReduced virus productionCommon cold virusInfected epithelial cellsB-cell lymphoma 2 (Bcl-2) overexpressionBronchial epithelial cellsDiverse stimuliViral replicationAntiviral pathwaysCell deathH1-HeLa cellsTemperature-dependent replicationCell typesSingle replication cycleTemperature-dependent growthReplication cycleWarmer temperaturesCool temperaturesDefense strategiesType 1 IFN response