A local regulatory T cell feedback circuit maintains immune homeostasis by pruning self-activated T cells
Wong H, Park K, Gola A, Baptista A, Miller C, Deep D, Lou M, Boyd L, Rudensky A, Savage P, Altan-Bonnet G, Tsang J, Germain R. A local regulatory T cell feedback circuit maintains immune homeostasis by pruning self-activated T cells. Cell 2021, 184: 3981-3997.e22. PMID: 34157301, PMCID: PMC8390950, DOI: 10.1016/j.cell.2021.05.028.Peer-Reviewed Original ResearchGlobal 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 ResearchConceptsPre-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 variationVaccinationTiters