2017
Membraneâbound Dickkopfâ1 in Foxp3+ regulatory T cells suppresses Tâcellâmediated autoimmune colitis
Chae W, Park J, Henegariu O, Yilmaz S, Hao L, Bothwell ALM. Membraneâbound Dickkopfâ1 in Foxp3+ regulatory T cells suppresses Tâcellâmediated autoimmune colitis. Immunology 2017, 152: 265-275. PMID: 28556921, PMCID: PMC5588763, DOI: 10.1111/imm.12766.Peer-Reviewed Original ResearchMeSH KeywordsAdoptive TransferAnimalsAutoimmune DiseasesAutoimmunityCell MembraneCell ProliferationCHO CellsColitisColonCricetulusDisease Models, AnimalDNA-Binding ProteinsForkhead Transcription FactorsGenetic Predisposition to DiseaseIntercellular Signaling Peptides and ProteinsLymphocyte ActivationMice, Inbred C57BLMice, KnockoutMitogen-Activated Protein KinasesPhenotypeSelf ToleranceSignal TransductionTime FactorsT-Lymphocytes, RegulatoryTransfectionConceptsRegulatory T cellsTreg cellsDKK-1 expressionAutoimmune colitisDickkopf-1T cellsT cell-mediated toleranceEffector CD4 T cellsCD4 T cellsInduction of toleranceT cell proliferationT cell receptor stimulationNovel TregColitis modelImmunological homeostasisImmunological toleranceFoxp3Receptor stimulationCanonical Wnt pathwayColitisFunctional inhibitionMonoclonal antibodiesDe novo protein synthesisProtein kinase pathwaySuppressor function
2007
Regulatory Transplantation Tolerance and âStemnessâ: Evidence That Foxp3 May Play a Regulatory Role in SOCS-3 Gene Transcription
Muthukumarana P, Chae WJ, Maher S, Rosengard BR, Bothwell AL, Metcalfe SM. Regulatory Transplantation Tolerance and âStemnessâ: Evidence That Foxp3 May Play a Regulatory Role in SOCS-3 Gene Transcription. Transplantation 2007, 84: s6-s11. PMID: 17632414, DOI: 10.1097/01.tp.0000269116.06510.db.Peer-Reviewed Original ResearchConceptsExpression of Foxp3Wt-Foxp3Regulatory transplantation toleranceSOCS-3Immune effector cellsStem cell-related factorsHuman T cell lineCell-related factorsT cell linesJurkat human T cell lineSOCS-3 transcriptsLIF transcriptionSuppressor of cytokineTransplantation toleranceEffector cellsT lymphocytesFoxp3Inhibitory factorKey mediatorT cell signal transductionAxotrophinTregsFurther evidenceTranscriptional activityRegulatory role
2006
The mutant leucine-zipper domain impairs both dimerization and suppressive function of Foxp3 in T cells
Chae WJ, Henegariu O, Lee SK, Bothwell AL. The mutant leucine-zipper domain impairs both dimerization and suppressive function of Foxp3 in T cells. Proceedings Of The National Academy Of Sciences Of The United States Of America 2006, 103: 9631-9636. PMID: 16769892, PMCID: PMC1480458, DOI: 10.1073/pnas.0600225103.Peer-Reviewed Original ResearchConceptsWild-type FOXP3Regulatory T cellsCD4 T cellsT cellsAutoimmune diseasesTh2-type cytokine secretionScurfy mutant mouseSevere autoimmune diseaseFoxp3 transcription factorAntigenic stimulationCytokine secretionFoxp3Suppressive functionMutant miceAdhesion moleculesSuppressor activityDiseaseGlutamic acidImportant roleCellsCD103HyporesponsivenessTh1Leucine zipper domainTranscription factors
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