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Although it is generally agreed that TCR ligation is a minimal requirement for negative selection in the CD+8+ double-positive (DP) thymocyte subset, the costimulatory requirements and specific signaling events necessary to induce apoptosis are not well defined. We have explored the consequences of cross-linking CD3/TCR complexes on thymocytes from H-Y TCR transgenic (Tg) mice. In agreement with previous reports, we demonstrate that culturing DP thymocytes with plate-bound anti-TCR antibody induces downregulation of CD4 and CD8 and upregulation of CD69 expression. Nevertheless, the activated cells did not undergo apoptosis, as determined by viable cell recoveries and by quantitation of DNA fragmentation using the TUNEL assay. However, specific depletion of the DP subset occurred within 24 hr when thymocytes were incubated in the presence of both anti-TCR and the immunosuppressant cyclosporin A (CsA). CsA also induced depletion of anti-CD3 stimulated normal DP thymocytes. Using mice homozygous for the lpr or gld mutation, we also have shown that Fas/Fas ligand interactions are not involved in the CsA-induced death of TCR-stimulated DP thymocytes. These data verify that TCR cross-linking alone is insufficient to induce apoptosis of DP thymocytes and further suggest that TCR stimulation activates a CsA-sensitive protective pathway that interferes with signaling events leading to apoptosis in DP thymocytes.  相似文献   

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Positive selection is an obligatory step during intrathymic T cell differentiation. It is associated with rescue of short-lived, self major histocompatibility complex (MHC)-restricted thymocytes from programmed cell death, CD4/CD8 T cell lineage commitment, and induction of lineage-specific differentiation programs. T cell receptor (TCR) signaling during positive selection can be closely mimicked by targeting TCR on immature thymocytes to cortical epithelial cells in situ via hybrid antibodies. We show that selection of CD4 T cell lineage cells in mice deficient for MHC class I and MHC class II expression can be reconstituted in vivo by two separable T cell receptor signaling steps, whereas a single TCR signal leads only to induction of short-lived CD4+CD8la intermediates. These intermediates remain susceptible to a second TCR signal for 12-48 h providing an estimate for the duration of positive selection in situ. While both TCR signals induce differentiation steps, only the second one confers long-term survival on immature thymocytes. In further support of the two-step model of positive selection we provide evidence that CD4 T cell lineage cells rescued by a single hybrid antibody pulse in MHC class II-deficient mice are pre-selected by MHC class 1.  相似文献   

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Interaction of TCRs on CD4+CD8+ immature T cell with MHC-peptide complexes on stromal cells is required for positive and negative selection in the thymus. Identification and characterization of a subpopulation of CD4+CD8+ thymocytes undergoing selection in the thymus will aid in understanding the mechanisms underlying lineage commitment and thymic selection. Herein, we describe the expression of Ly-6 ThB on developing thymocytes. The majority of CD4+CD8+ thymocytes express Ly-6 ThB at high levels. Its expression is downregulated in a subset of CD4+CD8+ thymocytes as well as in mature CD4+CD8- and CD4-CD8+ T cells. More importantly, interaction of TCR/coreceptor with the self-MHC-peptide contributes to the downregulation of ThB expression on developing thymocytes. These findings indicate that downregulation of ThB on CD4+CD8+ thymocytes identifies a unique subset (CD4+CD8+ThBneg–low) of thymocytes that has received the initial signals for thymic selection but have not yet downregulated the CD4 and CD8 cell surface expression. In addition, these results also indicate that a high frequency (Ÿ20–40%) of CD4+CD8+ immature thymocytes receive these initial signals during thymic selection.  相似文献   

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Thymic commitment of human FOXP 3+ regulatory T cells begins at the double‐positive (DP ) CD 4+ CD 8+ stage. In the current study, we show that interleukin‐2 promotes the development of FOXP 3+ thymocytes and enhances their survival at the DP phase. IL ‐2 increases the frequency of FOXP 3+ cells and promotes the Treg phenotype after TCR ‐mediated positive selection at the most mature DP stage. However, it has no effect on FOXP 3+ cells at the earlier maturation steps before positive selection. DP FOXP 3+ thymocytes are highly susceptible to cell death but IL ‐2 promotes their survival. The anti‐apoptotic protein BCL ‐2 (B Cell Lymphoma 2) is also upregulated by IL ‐2 at the most mature DP stage. In addition to IL ‐2, we identify IL ‐15 to have a significant role in the upregulating FOXP 3 and survival of Tregs at the DP phase. IL ‐7 also increases the expression of BCL ‐2 in the DP FOXP 3+ thymocytes. Our results indicate that common gamma chain cytokines IL ‐2, IL ‐7 and IL ‐15 promote the development of regulatory T cells at the most mature DP stage after TCR ‐mediated positive selection through suppressing cell death.  相似文献   

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GATA-3 is expressed at higher levels in CD4 than in CD8 SP thymocytes. Here we show that upregulation of GATA-3 expression in DP thymocytes is triggered by TCR stimulation, and the extent of upregulation correlates with the strength of the TCR signal. Overexpression of GATA-3 or a partial GATA-3 agonist during positive selection inhibits CD8 SP cell development but is not sufficient to divert class I-restricted T cell precursors to the CD4 lineage. Conversely, expression of the GATA-3 antagonist ROG or of a GATA-3 siRNA hairpin markedly enhances development of CD8 SP cells and reduces CD4 SP development. We propose that GATA-3 contributes to linking the TCR signal strength to the differentiation program of CD4 and CD8 thymocytes.  相似文献   

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Thymocyte positive selection is based on protection of immatureCD4/CD8 double-positive (DP) thymocytes from apoptosis and theirdifferentiation into CD4 or CD8 single-positive (SP) cells.Intracellular signals essential for positive selection appearto be induced through the TCR and some of the accessory moleculesincluding LFA-1, CD4 and CD8 upon Interaction with thymic stromalcells. The signals, however, still remain to be identified.Since physiological levels of glucocorticoids potentially induceor enhance thymocyte apoptosis even in vivo, the signals arelikely to inhibit the apoptotic effect of glucocorticoids. Wehave previously shown that proper cross-linking of TCR-CD3 withLFA-1, CD4 or CD8 inhibited glucocortlcold-lnduced thymocyteapoptosis in vitro, and that a proper combination of the calciumionophore, ionomycin and the protein kinase C (PKC) activator,phorbol 12-myrlstate 13-acetate (PMA), mimicked the inhibitoryeffect. Here we determined whether this combination of ionomycinand PMA induces differentiation of isolated DP thymocytes fromnormal and TCR transgenic mice. We found that pretreatment ofDP thymocytes with ionomycin and PMA followed by 1 day cultureof the cells without the reagents resulted in the differentiationof the cells into CD4 SP and CD4+ CD8lo T cells that have mostlycommitted to the CD4 lineage. The changes in expression of otherdifferentiation markers were also in good accordance with thoseassociated with positive selection, except the final maturation.The results indicate that moderate and transient increases inintracellular Ca2+ level and PKC activity induce differentiationand commitment of DP thymocytes to the CD4 lineage, and suggestedthat the biochemical pathway leading to positive selection isbased on a similar mechanism.  相似文献   

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How T cell receptor (TCR) avidity influences CD8+ T cell development and repertoire selection is not yet fully understood. To fill this gap, we utilized Src-like adaptor protein (SLAP)-deficient mice as a tool to increase TCR avidity on double positive (DP) thymocytes. We generated SLAP?/? mice with the transgenic MHC class I-restricted TCR (OT-1) and SLAP?/? Vβ5 mice, expressing only the β-chain of the TCR OT-1 transgene, to examine the effects of increased TCR surface levels on CD8+ T cell development and repertoire selection. In comparing SLAP?/? OT-1 and Vβ5 mice with wild-type controls, we performed compositional analysis and assessed thymocyte signaling by measuring CD5 levels. In addition, we performed tetramer and compositional staining to measure affinity for the cognate antigen, ovalbumin (OVA) peptide, presented by MHC. Furthermore, we quantified differences in α-chain repertoire in SLAP?/? Vβ5 mice. We have found that SLAP?/? OT-1 mice have fewer CD8+ thymocytes but have increased CD5 expression. SLAP?/? OT-1 mice have fewer DP thymocytes expressing Vα2, signifying increased endogenous α-chain rearrangement, and more non-OVA-specific CD8+ splenocytes upon tetramer staining. Our data demonstrate that SLAP?/? Vβ5 mice also have fewer OVA-specific cells and increased Vα2 usage in the peripheral Vβ5 CD8+ T cells that were non-OVA-specific, demonstrating differences in α-chain repertoire. These studies provide direct evidence that increased TCR avidity in DP thymocytes enhances CD8+ T cell negative selection deleting thymocytes with specificity for cognate antigen, an antigen the mature T cells may never encounter. Collectively, these studies provide new insights into how TCR avidity during CD8+ T cell development influences repertoire selection.  相似文献   

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Positive selection of T‐cell precursors is the process by which a diverse T‐cell repertoire is established. Positive selection begins at the CD4+CD8+ double positive (DP) stage of development and involves at least two steps. First, DP thymocytes down‐regulate CD8 to become transitional single positive (TSP) CD4+ thymocytes. Then, cells are selected to become either mature single positive CD4+ or mature single positive CD8+ thymocytes. We sought to define the function of Gads during the two steps of positive selection by analyzing a Gads‐deficient mouse line. In Gads+/+ mice, most TSP CD4+ thymocytes are TCRhiBcl‐2hiCD69+, suggesting that essential steps in positive selection occurred in the DP stage. Despite that Gads?/? mice could readily generate TSP CD4+ thymocytes, many Gads?/? TSP CD4+ cells were TCRloBcl‐2loCD69?, suggesting that Gads?/? cells proceeded to the TSP CD4+ stage prior to being positively selected. These data suggest that positive selection is not a prerequisite for the differentiation of DP thymocytes into TSP CD4+ thymocytes. We propose a model in which positive selection and differentiation into the TSP CD4+ stage are separable events and Gads is only required for positive selection.  相似文献   

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