Influenza vaccination reveals sex dimorphic imprints of prior mild COVID-19
Sparks R, Lau W, Liu C, Han K, Vrindten K, Sun G, Cox M, Andrews S, Bansal N, Failla L, Manischewitz J, Grubbs G, King L, Koroleva G, Leimenstoll S, Snow L, Chen J, Tang J, Mukherjee A, Sellers B, Apps R, McDermott A, Martins A, Bloch E, Golding H, Khurana S, Tsang J. Influenza vaccination reveals sex dimorphic imprints of prior mild COVID-19. Nature 2023, 614: 752-761. PMID: 36599369, PMCID: PMC10481789, DOI: 10.1038/s41586-022-05670-5.Peer-Reviewed Original ResearchConceptsMild COVID-19Control individualsInnate immune genesInfluenza vaccinationCOVID-19Day 28Day 1Viral infectionNon-hospitalized COVID-19Baseline immune statusAcute viral infectionSex-matched control individualsMemory-like CD8IL-15 responsesIL-15 stimulationSex-dimorphic effectsToll-like receptorsFuture immune responseHealthy control individualsImmune genesSystems immunology approachT-cell activation signaturesHealthy male individualsMale individualsMore IFNγBroad immune activation underlies shared set point signatures for vaccine responsiveness in healthy individuals and disease activity in patients with lupus
Kotliarov Y, Sparks R, Martins A, Mulè M, Lu Y, Goswami M, Kardava L, Banchereau R, Pascual V, Biancotto A, Chen J, Schwartzberg P, Bansal N, Liu C, Cheung F, Moir S, Tsang J. Broad immune activation underlies shared set point signatures for vaccine responsiveness in healthy individuals and disease activity in patients with lupus. Nature Medicine 2020, 26: 618-629. PMID: 32094927, PMCID: PMC8392163, DOI: 10.1038/s41591-020-0769-8.Peer-Reviewed Original ResearchMeSH KeywordsAdaptive ImmunityAdolescentAdultAgedAged, 80 and overAntibody FormationB-LymphocytesChildChild, PreschoolCohort StudiesFemaleGene Expression ProfilingHumansInfluenza VaccinesInfluenza, HumanLupus Erythematosus, SystemicMaleMiddle AgedTranscriptomeVaccinationYellow FeverYellow Fever VaccineYoung AdultConceptsDisease activityVaccine responsivenessAutoimmune disease activityBlood transcriptional signaturesYellow fever vaccinationSystemic lupus erythematosusClinical quiescenceFever vaccinationLupus erythematosusCancer immunotherapyBaseline predictorsDisease outcomeHealthy subjectsImmune responseI IFNHealthy individualsVaccinationTranscriptional signatureImmune variationBaseline statePatientsExtent of activationBiological basisSurface proteinsInfection responseGlobal Analyses of Human Immune Variation Reveal Baseline Predictors of Postvaccination Responses
Tsang J, Schwartzberg P, Kotliarov Y, Biancotto A, Xie Z, Germain R, Wang E, Olnes M, Narayanan M, Golding H, Moir S, Dickler H, Perl S, Cheung F, Center T, Consortium T, Obermoser G, Chaussabel D, Palucka K, Chen J, Fuchs J, Ho J, Khurana S, King L, Langweiler M, Liu H, Manischewitz J, Pos Z, Posada J, Schum P, Shi R, Valdez J, Wang W, Zhou H, Kastner D, Marincola F, McCoy J, Trinchieri G, Young N. Global Analyses of Human Immune Variation Reveal Baseline Predictors of Postvaccination Responses. Cell 2014, 157: 499-513. PMID: 24725414, PMCID: PMC4139290, DOI: 10.1016/j.cell.2014.03.031.Peer-Reviewed Original ResearchMeSH KeywordsAdultAntibody FormationB-LymphocytesFemaleHumansInfluenza VaccinesLeukocytes, MononuclearMaleMiddle AgedTranscriptomeYoung AdultConceptsPre-existing antibody titersPostvaccination antibody responsePeripheral blood mononuclear cell transcriptomeB cell responsesBaseline time pointPostvaccination responsesInfluenza vaccinationImmune monitoringSerum titersAntibody titersAntibody responseBaseline predictorsBaseline differencesImmune parametersHuman immunityCell responsesSubpopulation frequenciesTime pointsCell populationsIntra-individual variationVaccinationTitersIntegrating population and single-cell variations in vaccine responses identifies a naturally adjuvanted human immune setpoint
Mulè M, Martins A, Cheung F, Farmer R, Sellers B, Quiel J, Jain A, Kotliarov Y, Bansal N, Chen J, Schwartzberg P, Tsang J. Integrating population and single-cell variations in vaccine responses identifies a naturally adjuvanted human immune setpoint. Immunity 2024, 57: 1160-1176.e7. PMID: 38697118, DOI: 10.1016/j.immuni.2024.04.009.Peer-Reviewed Original ResearchConceptsTranscriptional statesVaccine responseSingle-cell profiling methodsSingle-cell variationAS03-adjuvanted vaccineUnadjuvanted influenza vaccineResponse to lipopolysaccharide stimulationB cell signaturesCD14<sup>+</sup> monocytesSingle-cell levelBiological insightsUnadjuvanted vaccineAS03-adjuvantedInfluenza vaccineResponse phenotypesCITE-seqInnate subsetsAdjuvant developmentHigh antibody respondersDay 1Antibody respondersLipopolysaccharide stimulationVaccineCorrelation networkHuman population