Thymus-homing peripheral dendritic cells constitute two of the three major subsets of dendritic cells in the steady-state thymus
about
The Contribution of Chemokines and Migration to the Induction of Central Tolerance in the ThymusThymic Crosstalk Coordinates Medulla Organization and T-Cell Tolerance InductionMaturation and migration of murine CD4 single positive thymocytes and thymic emigrantsLymphoid organ-resident dendritic cells exhibit unique transcriptional fingerprints based on subset and siteT Cell Adaptive Immunity Proceeds through Environment-Induced Adaptation from the Exposure of Cryptic Genetic VariationPositive and negative selection of the T cell repertoire: what thymocytes see (and don't see)Development of monocytes, macrophages, and dendritic cellsRecent insights into the implications of metabolism in plasmacytoid dendritic cell innate functions: Potential ways to control these functionsAllogeneic T regulatory cell-mediated transplantation tolerance in adoptive therapy depends on dominant peripheral suppression and central tolerance.Linkage between dendritic and T cell commitments in human circulating hematopoietic progenitors.Unique properties of thymic antigen-presenting cells promote epigenetic imprinting of alloantigen-specific regulatory T cells.Molecular control of steady-state dendritic cell maturation and immune homeostasis.Cutting edge: Antigen-specific thymocyte feedback regulates homeostatic thymic conventional dendritic cell maturation.Shaping the repertoire of tumor-infiltrating effector and regulatory T cells.Three distinct subsets of thymic epithelial cells in rats and mice defined by novel antibodies.Homeostatic properties and phenotypic maturation of murine CD4+ pre-thymic emigrants in the thymus.Thymus-specific deletion of insulin induces autoimmune diabetes.Blood dendritic cells suppress NK cell function and increase the risk of leukemia relapse after hematopoietic cell transplantationEpithelial and dendritic cells in the thymic medulla promote CD4+Foxp3+ regulatory T cell development via the CD27-CD70 pathwayBecoming self-aware: the thymic education of regulatory T cells.The earliest intrathymic precursors of CD8α(+) thymic dendritic cells correspond to myeloid-type double-negative 1c cells.NIK signaling in dendritic cells but not in T cells is required for the development of effector T cells and cell-mediated immune responsesComplete diabetes protection despite delayed thymic tolerance in NOD8.3 TCR transgenic mice due to antigen-induced extrathymic deletion of T cells.The NF-κB1 transcription factor prevents the intrathymic development of CD8 T cells with memory propertiesThe Role of Dendritic Cells in Central ToleranceBone marrow-derived IL-13Rα1-positive thymic progenitors are restricted to the myeloid lineage.Plasmacytoid dendritic cells transport peripheral antigens to the thymus to promote central toleranceDll4-Notch signaling in Flt3-independent dendritic cell development and autoimmunity in mice.Layers of dendritic cell-mediated T cell tolerance, their regulation and the prevention of autoimmunity.Proteinase 3 on apoptotic cells disrupts immune silencing in autoimmune vasculitisThymus-blood protein interactions are highly effective in negative selection and regulatory T cell induction.Functional redundancy between thymic CD8α+ and Sirpα+ conventional dendritic cells in presentation of blood-derived lysozyme by MHC class II proteins.Early T-cell progenitors are the major granulocyte precursors in the adult mouse thymus.Increased generation of Foxp3(+) regulatory T cells by manipulating antigen presentation in the thymus.Endogenous dendritic cells from the tumor microenvironment support T-ALL growth via IGF1R activation.Recent thymic emigrants are the preferential precursors of regulatory T cells differentiated in the periphery.Quorum sensing allows T cells to discriminate between self and nonselfAutoreactive thymic B cells are efficient antigen-presenting cells of cognate self-antigens for T cell negative selection.Maturation and emigration of single-positive thymocytes.Dendritic cell sphingosine-1-phosphate lyase regulates thymic egress.
P2860
Q26795470-A5416634-E4F7-4E74-B20C-48F0B99E9252Q26800152-FE61B49D-10A3-4880-9BEE-5322942DA4DAQ27005659-98639E0A-E4E2-4FAA-8B25-4E82725F7FE6Q28476629-532889ED-AB17-41E6-AD25-3322FC467056Q28732174-48EA9945-6F44-4FB2-AA77-1D3004A268BFQ29391777-D98A0FE3-8C33-458D-8651-45D2DDA18CDDQ29616446-C033EAB1-344E-4970-8E07-724544389450Q30252210-FC95DA13-E4CB-4182-B4F7-918B36CA88DCQ33722667-653A98CA-26E5-4D85-91D1-574032C0B572Q33723715-EE58999D-45D1-4BA5-B121-A776E38D40B4Q33829220-0884A41B-96F5-4918-B1D1-024272E57D2EQ33882051-9239CC9A-860C-4669-B909-9D7F43AE1956Q33965318-606ABEA7-2EF8-4338-8DF5-ADCEEF9A3BDFQ34003592-FAAE1537-C851-472E-A099-C325B976B16AQ34379591-250FBE97-C94E-47FF-9076-9931ADD8B212Q34586912-7C2949B1-EE2F-4CE6-947A-A10C87DFC64BQ34610806-69BB5CCC-7ACB-4CAC-9470-2D511C54DDCDQ34618829-9282CA04-6D01-4F41-9471-829E8F3CF1E2Q34649977-83A3807D-A740-4934-85FA-9FAFB29B90E2Q34700458-34544FDF-3506-4907-8B61-A07D15794721Q34919049-4AB810AC-F617-4723-9AC6-81555BBEDAC3Q35208356-BE376707-8CB1-46A5-8ACC-A6EF11F01E07Q35696624-49FE379B-8C77-4131-9924-A188370CD9BFQ35739633-FC726E1B-4D35-4B6F-904F-FA3456F978E0Q35802578-3546F175-2AE0-4200-89D8-608E0F72ACFCQ35850794-4F4BE0D2-69B7-4CAA-A848-5C3D8C225D3EQ35861549-4B118146-22C0-4DF6-B672-F0ADC2F62B5AQ35946087-B64F2A38-7AF4-4AAA-B703-63EF6543100AQ36073220-7E73D88B-FF9A-4877-A33D-651940EA69B6Q36266550-514B9EEA-8223-4386-A125-1DD8116A0C65Q36426341-C707957A-0344-4451-B916-54A8B1C0A255Q36433047-B08E1B27-A3DF-44D7-8260-8BCBC07A3D91Q36512619-A794644E-CC8A-4E9A-B91D-37A66F329640Q36637209-71C8A4C7-CFC3-48CE-8947-C27AC8A244E5Q36646371-A16B0287-A185-49AB-AC0F-42E7CD468165Q36781877-1306C7B2-618B-4D97-AE33-B771E8E203F0Q37031795-3EBDF9A7-3442-4833-8064-9029D4D78292Q37240479-7D154B4C-FD05-47FB-82B9-6359874305DBQ37245026-89131419-8590-4D39-AE96-A8EA4CBEF152Q37415213-D38FE802-0C08-49CE-A6A9-813FCA0E27CD
P2860
Thymus-homing peripheral dendritic cells constitute two of the three major subsets of dendritic cells in the steady-state thymus
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 09 March 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Thymus-homing peripheral dendr ...... lls in the steady-state thymus
@en
Thymus-homing peripheral dendr ...... ls in the steady-state thymus.
@nl
type
label
Thymus-homing peripheral dendr ...... lls in the steady-state thymus
@en
Thymus-homing peripheral dendr ...... ls in the steady-state thymus.
@nl
prefLabel
Thymus-homing peripheral dendr ...... lls in the steady-state thymus
@en
Thymus-homing peripheral dendr ...... ls in the steady-state thymus.
@nl
P2093
P2860
P356
P1476
Thymus-homing peripheral dendr ...... lls in the steady-state thymus
@en
P2093
Deborah Foss
Irving Goldschneider
JooHung Park
P2860
P304
P356
10.1084/JEM.20082232
P407
P577
2009-03-09T00:00:00Z