2014
Apoptotic Caspases Prevent the Induction of Type I Interferons by Mitochondrial DNA
Rongvaux A, Jackson R, Harman CC, Li T, West AP, de Zoete MR, Wu Y, Yordy B, Lakhani SA, Kuan CY, Taniguchi T, Shadel GS, Chen ZJ, Iwasaki A, Flavell RA. Apoptotic Caspases Prevent the Induction of Type I Interferons by Mitochondrial DNA. Cell 2014, 159: 1563-1577. PMID: 25525875, PMCID: PMC4272443, DOI: 10.1016/j.cell.2014.11.037.Peer-Reviewed Original ResearchConceptsMitochondrial outer membrane permeabilizationCell deathOuter membrane permeabilizationType I interferonDNA-dependent activationCaspase-dependent mannerI interferonCGAS/STING pathwayMitochondrial DNAApoptotic caspasesMembrane permeabilizationActive caspasesProapoptotic caspasesMitochondriaCaspasesSTING pathwayIFN responseAntiviral immunityCentral roleDual controlPathwayProinflammatory typeInductionCellsActivation
2011
Mitoxosome: a mitochondrial platform for cross‐talk between cellular stress and antiviral signaling
Tal MC, Iwasaki A. Mitoxosome: a mitochondrial platform for cross‐talk between cellular stress and antiviral signaling. Immunological Reviews 2011, 243: 215-234. PMID: 21884179, PMCID: PMC3170140, DOI: 10.1111/j.1600-065x.2011.01038.x.Peer-Reviewed Original ResearchConceptsCellular stressMitochondrial functionCell biologic analysesViral recognitionInnate immune signalingDynamic relocalizationAntiviral signalingImmune signalingMitochondriaAntiviral responseMultiple pathwaysAntiviral immunityCurrent understandingRecent findingsSignalingViral replicationInnate responseIntegrated viewBiologic analysisRecent studiesSignalosomeRelocalizationKey componentStressIntegral platform
2009
Autophagic control of RLR signaling
Tal MC, Iwasaki A. Autophagic control of RLR signaling. Autophagy 2009, 5: 749-750. PMID: 19571662, PMCID: PMC3693554, DOI: 10.4161/auto.5.5.8789.Peer-Reviewed Original ResearchConceptsAbsence of autophagyReactive oxygen speciesPattern recognition receptorsRetinoic acid-inducible gene IAcid-inducible gene IATG5 knockout cellsImportance of autophagyInducible gene IPotent antiviral factorsLike receptor familyI interferonCytosolic signalingKnockout cellsCellular organellesAutophagy functionAutophagic controlGene IRNA virusesAutophagyReceptor familyType I interferonMitochondriaAntiviral factorsRecognition receptorsInfected cellsAbsence of autophagy results in reactive oxygen species-dependent amplification of RLR signaling
Tal MC, Sasai M, Lee HK, Yordy B, Shadel GS, Iwasaki A. Absence of autophagy results in reactive oxygen species-dependent amplification of RLR signaling. Proceedings Of The National Academy Of Sciences Of The United States Of America 2009, 106: 2770-2775. PMID: 19196953, PMCID: PMC2650341, DOI: 10.1073/pnas.0807694106.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutophagyAutophagy-Related Protein 5Cells, CulturedDEAD Box Protein 58DEAD-box RNA HelicasesDNA, MitochondrialEnzyme-Linked Immunosorbent AssayFlow CytometryInterferon Type IMacrophagesMiceMicrotubule-Associated ProteinsMitochondriaReactive Oxygen SpeciesReverse Transcriptase Polymerase Chain ReactionSignal TransductionConceptsReactive oxygen speciesDysfunctional mitochondriaInnate antiviral defenseAntiviral defenseKey antiviral cytokinesAbsence of autophagyMitochondrial reactive oxygen speciesHomeostatic regulationRole of autophagyTreatment of cellsIPS-1RLR signalingVesicular stomatitis virusAutophagy resultsRNA virusesWT cellsMitochondriaAutophagyType I IFNStomatitis virusRLRLike receptorsOxygen speciesNeurodegenerative diseasesInflammatory disorders