Fine Tuning of TCR Signaling by CD5

Azzam, Hala S.; DeJarnette, Jan B.; Huang, Kun; Emmons, Rebecca P.; Park, Cheung-Seog; Sommers, Connie L.; El-Khoury, Dalal; Shores, Elizabeth W.; Love, Paul E.

doi:10.4049/jimmunol.166.9.5464

Cited by 251 publications

(290 citation statements)

References 38 publications

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“…By analysis of CD2-GATA3 transgenic and Gata3 conditional knockout mouse models, as well as CD2-GATA3 transgenic mice that were crossed into various TCR-transgenic mice, we show in this report that GATA3 modulates the surface expression level of the glycoprotein CD5 and enhances TCR expression during CD4 T lineage development in vivo. The regulatory mechanisms that control CD5 expression are key to lymphocyte development and function, because CD5 is a negative regulator of TCR signaling during thymocyte development and therefore participates in the finetuning of the TCR repertoire [13][14][15][16]. Interestingly, because GATA3 is induced by TCR signaling [7], our finding that GATA3 controls TCR up-regulation and CD5 down-regulation implicates GATA3 in a positive feedback loop that increases TCR surface expression during CD4 T lineage development.…”

Section: Introductionmentioning

confidence: 77%

Section: Discussionmentioning

confidence: 99%

“…As targeted deletion of CD5 has been shown to reduce DP cellularity in various TCR-transgenic models, including HY and DO11.10 [16,31], it is likely that the reduction of DP cell numbers in the CD2-GATA3 transgenic models is a result of decreased CD5 expression. As CD5 acts as a negative regulator of TCR-mediated signal transduction [13,16], reduction of CD5 expression levels in CD2-GATA3-expressing DP cells is expected to increase TCR signal strength, which will result in negative selection and thus deletion. However, it cannot be excluded that the impaired thymocyte expansion and the partial developmental arrest found in thymocytes with premature TCRab expression and signaling [32] may also contribute to the observed reduction in the DP cell population in TCR CD2-GATA3 double-transgenic mice.…”

Section: Discussionmentioning

confidence: 99%

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GATA3 controls the expression of CD5 and the T cell receptor during CD4 T cell lineage development

et al. 2007

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The transcription factor GATA3 is essential at multiple stages of T cell development, including the earliest double-negative stages, b-selection and CD4 single-positive thymocytes. Here, we show that in CD2-GATA3 transgenic mice, with enforced GATA3 expression driven by the CD2 promoter, thymocytes have reduced levels of CD5, which is a negative regulator of TCR signaling participating in TCR repertoire fine-tuning. Reduction of CD5 expression was most prominent in CD4 + CD8 + double-positive (DP) cells and was associated with increased levels of the transcription factor E2A. Conversely, GATA3-deficient DP thymocytes showed consistently higher CD5 levels and defective TCR up-regulation during their development towards the CD4 lo CD8 lo subpopulation. CD2-GATA3 transgenic mice carrying the MHC class II-restricted TCR DO11.10 also manifested decreased CD5 levels. As in these TCR-transgenic mice reduced CD5 expression cannot result from an effect of GATA3 on repertoire selection, we conclude that enforced GATA3 interferes with the developmentally regulated increase of CD5 levels. Enforced GATA3 expression in DO11.10 transgenic mice was also accompanied by enhanced TCR expression during CD4 positive selection. Because GATA3 is induced by TCR signaling in DP thymocytes, our findings indicate that GATA3 establishes a positive feedback loop that increases TCR surface expression in developing CD4 lineage cells.

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Section: Introductionmentioning

confidence: 77%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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GATA3 controls the expression of CD5 and the T cell receptor during CD4 T cell lineage development

et al. 2007

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“…Although initial studies on CD5 À/À mice did not reveal major defects in T-cell development [44], further analysis using TCR transgenic mice showed that CD5 can influence the outcome of thymocyte selection depending on the avidity of the TCR-peptide/ MHC interaction. Thus, in the absence of CD5, thymocytes with high affinity TCR were negatively selected, likely due to increased TCRmediated signaling [43,45].Since selection of nTreg appear to require high affinity/avidity interactions [46], we hypothesized that CD5 might be involved in their generation. Here, we describe that the absence of CD5 leads to increased numbers of thymic and peripheral nTreg, accompanied by increased cell death of naïve thymocytes.…”

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confidence: 99%

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confidence: 99%

Increased numbers of thymic and peripheral CD4⁺ CD25⁺Foxp3⁺ cells in the absence of CD5 signaling

et al. 2009

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It has been suggested that high affinity/avidity interactions are required for the thymic selection of Treg. Here, we investigated the role of CD5, a negative regulator of TCR signaling, in the selection and function of ''naturally occurring'' CD4 1 CD25 1 Treg (nTreg). Analysis of CD5 À/À mice showed a significant increase in the percentage and absolute numbers of CD4 1 CD25 1 Foxp3 1 thymocytes and peripheral T lymphocytes, compared with BALB/c mice. Thymi from CD5 À/À mice showed reduced cellularity due to increased apoptosis, which preferentially affected naïve T cells. To characterize nTreg selection at the molecular level we investigated the phosphorylation of Erk, c-Cbl, PI3K and Akt. CD5 À/À nTreg showed increased basal levels of p-Erk compared with wild-type nTreg. Interestingly, in response to CD3 plus CD28 costimulation, CD5 À/À naïve T cells but not CD5 À/À nTreg showed lower levels of p-Akt. Finally, CD5 À/À nTreg were thymus-derived and fully functional. We conclude that the enrichment of nTreg observed in the absence of CD5 signaling is due to de novo generation of nTreg and selective reduction of CD4 1 CD25 À naïve thymocytes. Furthermore, we provide new evidence supporting a potential role of CD5 in thymocyte survival, through a mechanism that may involve the phosphorylation of Akt.Key words: CD5 . Development . Treg . Signaling . Thymocyte IntroductionThe maintenance of immunological self-tolerance is a fundamental property of the immune system besides the clearance of pathogenic agents. Central and peripheral mechanisms exist to ensure the elimination or inactivation of potentially harmful autoreactive T cells. Negative selection in the thymus induces the deletion of most self-reactive T-cell clones during T-cell development [1]. However, some autoreactive T cells escape from clonal deletion and need to be controlled by peripheral mechanisms including peripheral T-cell deletion by activation-induced cell death [2], T-cell anergy [3] and T-cell-mediated suppression [4].Recently, non-deletional mechanisms of central tolerance have been re-evaluated, such as the development of thymus-derived Treg [5]. These cells are currently known as ''naturally occurring'' CD4 1 CD25 1 Treg (nTreg), which represent a small population (5-10%) of peripheral CD4 1 T cells and are characterized by high levels of surface CD25 and by the expression of Foxp3, a transcription factor, identified as a key regulator of nTreg development and function [6]. In addition, nTreg also express activation markers such 2233as CTLA-4, glucocorticoid-induced tumor necrosis factor receptor (GITR), CD62L, OX40 and CD103 [7,8]. nTreg were first studied for their role in maintaining self-tolerance [9], preventing autoimmune diseases [10] and the development of harmful immunopathological responses [11]. However, nTreg can also participate in modulating adaptive immunity to viruses, bacteria and parasites affecting favorably or detrimentally the outcome of immune responses to infections [12,13].The mechanisms of suppression used by Treg...

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CD5-mediated inhibition of TCR signaling during intrathymic selection and development does not require the CD5 extracellular domain

Bhandoola

Bosselut

et al. 2002

Eur. J. Immunol.

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CD5 functions as a negative regulator of TCR signaling during intrathymic T cell development, but it is not known if this negative regulatory function requires CD5 engagement of an extracellular ligand. The present study has specifically examined the role of the CD5 extracellular domain in T cell development by introducing into CD5–/– mice a chimeric CD5 molecule in which the extracellular domain of CD5 is replaced with the extracellular domain of human IL‐2R p55 (Tac) for which no ligand exists in the mouse. We now report that CD5 mediated down‐regulation of TCR signalingduring thymocyte development does not require the CD5 extracellular domain and, consequently, does not involve CD5 binding of an extracellular ligand in the thymus.

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Fine Tuning of TCR Signaling by CD5

Cited by 251 publications

References 38 publications

GATA3 controls the expression of CD5 and the T cell receptor during CD4 T cell lineage development

GATA3 controls the expression of CD5 and the T cell receptor during CD4 T cell lineage development

Increased numbers of thymic and peripheral CD4⁺ CD25⁺Foxp3⁺ cells in the absence of CD5 signaling

CD5-mediated inhibition of TCR signaling during intrathymic selection and development does not require the CD5 extracellular domain

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Fine Tuning of TCR Signaling by CD5

Cited by 251 publications

References 38 publications

GATA3 controls the expression of CD5 and the T cell receptor during CD4 T cell lineage development

GATA3 controls the expression of CD5 and the T cell receptor during CD4 T cell lineage development

Increased numbers of thymic and peripheral CD4+ CD25+Foxp3+ cells in the absence of CD5 signaling

CD5-mediated inhibition of TCR signaling during intrathymic selection and development does not require the CD5 extracellular domain

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Increased numbers of thymic and peripheral CD4⁺ CD25⁺Foxp3⁺ cells in the absence of CD5 signaling