2021
A humanized mouse model of chronic COVID-19
Sefik E, Israelow B, Mirza H, Zhao J, Qu R, Kaffe E, Song E, Halene S, Meffre E, Kluger Y, Nussenzweig M, Wilen CB, Iwasaki A, Flavell RA. A humanized mouse model of chronic COVID-19. Nature Biotechnology 2021, 40: 906-920. PMID: 34921308, PMCID: PMC9203605, DOI: 10.1038/s41587-021-01155-4.Peer-Reviewed Original ResearchConceptsChronic COVID-19Humanized mouse modelImmune responseMouse modelAcute respiratory syndrome coronavirus 2 infectionSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infectionSyndrome coronavirus 2 infectionCOVID-19Adaptive human immune responsesInterferon-stimulated gene signaturePersistent viral RNACoronavirus 2 infectionPatient-derived antibodiesT-cell lymphopeniaHuman immune responseHyperactive immune responseCoronavirus disease 2019Inflammatory macrophage responseImmunological injuryLung pathologyCell lymphopeniaDisease 2019Severe diseaseRodent modelsInflammatory macrophagesKynurenic acid may underlie sex-specific immune responses to COVID-19
Cai Y, Kim DJ, Takahashi T, Broadhurst DI, Yan H, Ma S, Rattray NJW, Casanovas-Massana A, Israelow B, Klein J, Lucas C, Mao T, Moore AJ, Muenker MC, Oh JE, Silva J, Wong P, team Y, Ko AI, Khan SA, Iwasaki A, Johnson CH. Kynurenic acid may underlie sex-specific immune responses to COVID-19. Science Signaling 2021, 14: eabf8483. PMID: 34230210, PMCID: PMC8432948, DOI: 10.1126/scisignal.abf8483.Peer-Reviewed Original ResearchConceptsKynurenic acidImmune responseClinical outcomesSex-specific immune responsesT cell responsesPoor clinical outcomeCOVID-19 patientsCoronavirus disease 2019COVID-19Sex-related differencesMale patientsCytokine abundanceInflammatory cytokinesKynurenine ratioSerum metabolomeDisease 2019Sex-specific linkKynurenine aminotransferaseCell responsesOld malePatientsMalesOutcomesResponseMetabolitesDivergent and self-reactive immune responses in the CNS of COVID-19 patients with neurological symptoms
Song E, Bartley CM, Chow RD, Ngo TT, Jiang R, Zamecnik CR, Dandekar R, Loudermilk RP, Dai Y, Liu F, Sunshine S, Liu J, Wu W, Hawes IA, Alvarenga BD, Huynh T, McAlpine L, Rahman NT, Geng B, Chiarella J, Goldman-Israelow B, Vogels CBF, Grubaugh ND, Casanovas-Massana A, Phinney BS, Salemi M, Alexander JR, Gallego JA, Lencz T, Walsh H, Wapniarski AE, Mohanty S, Lucas C, Klein J, Mao T, Oh J, Ring A, Spudich S, Ko AI, Kleinstein SH, Pak J, DeRisi JL, Iwasaki A, Pleasure SJ, Wilson MR, Farhadian SF. Divergent and self-reactive immune responses in the CNS of COVID-19 patients with neurological symptoms. Cell Reports Medicine 2021, 2: 100288. PMID: 33969321, PMCID: PMC8091032, DOI: 10.1016/j.xcrm.2021.100288.Peer-Reviewed Original ResearchNeurological symptomsImmune responseCerebrospinal fluidAnti-severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) antibodiesCOVID-19Self-reactive immune responsesSARS-CoV-2 antibodiesCompartmentalized immune responseCSF immunoglobulin GRole of autoimmunityCOVID-19 patientsB cell responsesCoronavirus disease 2019Immune surveyNeurologic sequelaePulmonary infectionBrain infectionSerum antibodiesDisease 2019Monoclonal antibody targetsAnimal modelsTarget epitopesCell activationCell responsesSingle-cell RNA sequencingSingle-cell longitudinal analysis of SARS-CoV-2 infection in human airway epithelium identifies target cells, alterations in gene expression, and cell state changes
Ravindra NG, Alfajaro MM, Gasque V, Huston NC, Wan H, Szigeti-Buck K, Yasumoto Y, Greaney AM, Habet V, Chow RD, Chen JS, Wei J, Filler RB, Wang B, Wang G, Niklason LE, Montgomery RR, Eisenbarth SC, Chen S, Williams A, Iwasaki A, Horvath TL, Foxman EF, Pierce RW, Pyle AM, van Dijk D, Wilen CB. Single-cell longitudinal analysis of SARS-CoV-2 infection in human airway epithelium identifies target cells, alterations in gene expression, and cell state changes. PLOS Biology 2021, 19: e3001143. PMID: 33730024, PMCID: PMC8007021, DOI: 10.1371/journal.pbio.3001143.Peer-Reviewed Original ResearchConceptsSARS-CoV-2 infectionSARS-CoV-2Human bronchial epithelial cellsInterferon-stimulated genesCell state changesAcute respiratory syndrome coronavirus 2 infectionSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infectionSyndrome coronavirus 2 infectionCell tropismCoronavirus 2 infectionCoronavirus disease 2019Onset of infectionCell-intrinsic expressionCourse of infectionAir-liquid interface culturesHost-viral interactionsBronchial epithelial cellsSingle-cell RNA sequencingCell typesIL-1Disease 2019Human airwaysDevelopment of therapeuticsDrug AdministrationViral replicationThe first 12 months of COVID-19: a timeline of immunological insights
Carvalho T, Krammer F, Iwasaki A. The first 12 months of COVID-19: a timeline of immunological insights. Nature Reviews Immunology 2021, 21: 245-256. PMID: 33723416, PMCID: PMC7958099, DOI: 10.1038/s41577-021-00522-1.Peer-Reviewed Original ResearchMeSH KeywordsAngiotensin-Converting Enzyme 2Antibodies, ViralAutoantibodiesCOVID-19COVID-19 Drug TreatmentCOVID-19 SerotherapyCOVID-19 VaccinesDexamethasoneDrug DevelopmentGlucocorticoidsHumansImmunization, PassiveImmunologic FactorsInterferon Type IReceptors, CoronavirusSARS-CoV-2Systemic Inflammatory Response SyndromeConceptsSARS-CoV-2Acute respiratory syndrome coronavirus 2Respiratory syndrome coronavirus 2Numerous candidate vaccinesSyndrome coronavirus 2Coronavirus disease 2019Peer-reviewed journalsCandidate vaccinesCoronavirus 2Pneumonia casesDisease 2019Immune responseViral infectionImmunological insightsNovel coronavirusInitial reportCOVID-19First yearMonthsHighlight gapsPreprint serversUnidentified originFuture investigationsVaccineInfection
2020
SARS-CoV-2 infection of the placenta
Hosier H, Farhadian SF, Morotti RA, Deshmukh U, Lu-Culligan A, Campbell KH, Yasumoto Y, Vogels C, Casanovas-Massana A, Vijayakumar P, Geng B, Odio CD, Fournier J, Brito AF, Fauver JR, Liu F, Alpert T, Tal R, Szigeti-Buck K, Perincheri S, Larsen C, Gariepy AM, Aguilar G, Fardelmann KL, Harigopal M, Taylor HS, Pettker CM, Wyllie AL, Dela Cruz CS, Ring AM, Grubaugh ND, Ko AI, Horvath TL, Iwasaki A, Reddy UM, Lipkind HS. SARS-CoV-2 infection of the placenta. Journal Of Clinical Investigation 2020, 130: 4947-4953. PMID: 32573498, PMCID: PMC7456249, DOI: 10.1172/jci139569.Peer-Reviewed Case Reports and Technical NotesMeSH KeywordsAbortion, TherapeuticAbruptio PlacentaeAdultBetacoronavirusCoronavirus InfectionsCOVID-19FemaleHumansMicroscopy, Electron, TransmissionPandemicsPhylogenyPlacentaPneumonia, ViralPre-EclampsiaPregnancyPregnancy Complications, InfectiousPregnancy Trimester, SecondRNA, ViralSARS-CoV-2Viral LoadConceptsSevere acute respiratory syndrome coronavirus 2Acute respiratory syndrome coronavirus 2SARS-CoV-2 infectionRespiratory syndrome coronavirus 2SARS-CoV-2 invasionMaternal antibody responseSymptomatic COVID-19Second trimester pregnancySyndrome coronavirus 2Coronavirus disease 2019Materno-fetal interfaceDense macrophage infiltratesPlacental abruptionSevere preeclampsiaMacrophage infiltratesSevere morbidityTrimester pregnancyPregnant womenCoronavirus 2Antibody responseBackgroundThe effectsDisease 2019Histological examinationImmunohistochemical assaysPlacentaLongitudinal analyses reveal immunological misfiring in severe COVID-19
Lucas C, Wong P, Klein J, Castro TBR, Silva J, Sundaram M, Ellingson MK, Mao T, Oh JE, Israelow B, Takahashi T, Tokuyama M, Lu P, Venkataraman A, Park A, Mohanty S, Wang H, Wyllie AL, Vogels CBF, Earnest R, Lapidus S, Ott IM, Moore AJ, Muenker MC, Fournier JB, Campbell M, Odio CD, Casanovas-Massana A, Herbst R, Shaw A, Medzhitov R, Schulz W, Grubaugh N, Dela Cruz C, Farhadian S, Ko A, Omer S, Iwasaki A. Longitudinal analyses reveal immunological misfiring in severe COVID-19. Nature 2020, 584: 463-469. PMID: 32717743, PMCID: PMC7477538, DOI: 10.1038/s41586-020-2588-y.Peer-Reviewed Original ResearchConceptsSevere COVID-19Moderate COVID-19Immune signaturesDisease outcomeCOVID-19Disease trajectoriesInterleukin-5Early immune signaturesInnate cell lineagesType 2 effectorsT cell numbersPoor clinical outcomeWorse disease outcomesImmune response profileCoronavirus disease 2019Distinct disease trajectoriesCytokine levelsImmunological correlatesImmune profileClinical outcomesEarly elevationImmune profilingIL-13Immunoglobulin EDisease 2019Inflammasomes and Pyroptosis as Therapeutic Targets for COVID-19
Yap JKY, Moriyama M, Iwasaki A. Inflammasomes and Pyroptosis as Therapeutic Targets for COVID-19. The Journal Of Immunology 2020, 205: ji2000513. PMID: 32493814, PMCID: PMC7343621, DOI: 10.4049/jimmunol.2000513.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsMeSH KeywordsAnimalsAntiviral AgentsBetacoronavirusCoronavirus InfectionsCOVID-19COVID-19 Drug TreatmentHumansImmunity, InnateInflammasomesIntercellular Signaling Peptides and ProteinsMacrophages, AlveolarPandemicsPneumonia, ViralPyroptosisSARS-CoV-2Severe acute respiratory syndrome-related coronavirusSignal TransductionConceptsSevere acute respiratory syndrome-related coronavirus 2 (SARS-CoV-2) infectionSevere acute respiratory syndrome-related coronavirus 2Coronavirus disease 2019 (COVID-19) patientsSevere coronavirus disease 2019Coronavirus 2 infectionAvailable pharmaceutical agentsCoronavirus disease 2019Innate immune pathwaysClinical outcomesCoronavirus 2Inflammatory responseCellular pyroptosisDisease 2019Downstream cytokinesInflammasome activationInflammasome pathwayTherapeutic targetImmune pathwaysPromising targetPharmaceutical agentsCOVID-19PyroptosisPatientsCytokinesInflammasomeType I and Type III Interferons – Induction, Signaling, Evasion, and Application to Combat COVID-19
Park A, Iwasaki A. Type I and Type III Interferons – Induction, Signaling, Evasion, and Application to Combat COVID-19. Cell Host & Microbe 2020, 27: 870-878. PMID: 32464097, PMCID: PMC7255347, DOI: 10.1016/j.chom.2020.05.008.Peer-Reviewed Original ResearchConceptsSevere acute respiratory syndrome coronavirus 2Acute respiratory syndrome coronavirus 2Respiratory syndrome coronavirus 2Syndrome coronavirus 2Role of interferonType ICoronavirus disease 2019COVID-19Innate antiviral responseOngoing global threatCoronavirus 2Pathogenic coronavirusesTreatment strategiesDisease 2019Protective effectHuman coronavirusesRecombinant interferonMERS-CoVSARS-CoVAntiviral responseInterferonAntiviral therapeuticsCombat COVID-19Interferon inductionGlobal pandemic