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Thymocyte Development (thymocyte + development)
Selected AbstractsIn vivo disruption of T cell development by expression of a dominant-negative polypeptide designed to abolish the SLP-76/Gads interactionEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 10 2007Martha Abstract Multi-molecular complexes nucleated by adaptor proteins play a central role in signal transduction. In T cells, one central axis consists of the assembly of several signaling proteins linked together by the adaptors linker of activated T cells (LAT), Src homology,2 domain-containing leukocyte-specific phosphoprotein of 76,kDa (SLP-76), and Grb2-related adaptor downstream of Shc (Gads). Each of these adaptors has been shown to be important for normal T cell development, and their proper sub-cellular localization is critical for optimal function in cell lines. We previously demonstrated in Jurkat T cells and a rat basophilic leukemic cell line that expression of a 50-amino acid polypeptide identical to the site on SLP-76 that binds to Gads blocks proper localization of SLP-76 and SLP-76-dependent signaling events. Here we extend these studies to investigate the ability of this polypeptide to inhibit TCR-induced integrin activity in Jurkat cells and to inhibit in vivo thymocyte development and primary T cell function. These data provide evidence for the in vivo function of a dominant-negative peptide based upon the biology of SLP-76 action and suggest the possibility of therapeutic potential of targeting the SLP-76/Gads interaction. [source] Redefining epithelial progenitor potential in the developing thymusEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 9 2007Simona Abstract Cortical and medullary epithelium represent specialised cell types that play key roles in thymocyte development, including positive and negative selection of the T cell repertoire. While recent evidence shows that these epithelial lineages share a common embryonic origin, the phenotype and possible persistence of such progenitor cells in the thymus at later stages of development remain controversial. Through use of a panel of reagents including the putative progenitor marker Mts24, we set out to redefine the stages in the development of thymic epithelium. In the early embryonic day (E)12 thymus anlagen we find that almost all epithelial cells are uniformly positive for Mts24 expression. In addition, while the thymus at later stages of development was found to contain distinct Mts24+ and Mts24, epithelial subsets, thymus grafting experiments show that both Mts24+ and Mts24, epithelial subsets share the ability to form organised cortical and medullary thymic microenvironments that support T cell development, a function shown previously to be lost in the Mts24, cells by E15 when lower cell doses were used. Our data help to clarify stages in thymic epithelial development and provide important information in relation to currently used markers of epithelial progenitors. See accompanying commentary: http://dx.doi.org/10.1002/eji.200737709 [source] Complex regulation of CCR9 at multiple discrete stages of T,cell developmentEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 1 2006Marc-André Wurbel Dr. Abstract We have conducted a comprehensive assessment of CCR9 expression and function at the important milestone stages of murine thymocyte development. We reveal an unusually complex regulatory pattern, in which CCR9 influences T,cell development at several widely dispersed stages. We find that CCR9 is not expressed within the thymus until the double-negative (DN)3 stage, although it appears to contribute to T,cell precursor development prior to residence in the thymus. CCR9 expression is influenced by pre-T,cell receptor signals, and is dramatically up-regulated in a population that appears to be transitional between the DN4 and double-positive stages. In the periphery, functional CCR9 is expressed by all naive CD8 T,cells, but not by naive CD4 T,cells. To our knowledge, this latter finding is the first difference observed in homing receptor expression between naive lymphocyte populations. This suggests that naive CD8 T,cells might have access to lymphoid microenvironments from which naive CD4 T,cells are excluded. [source] In vivo overexpression of CTLA-4 suppresses lymphoproliferative diseases and thymic negative selectionEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 2 2005Shigekazu Takahashi Abstract Cytotoxic T,lymphocyte antigen-4 (CTLA-4) induces major inhibitory signals for T,cell activation. From analyses of TCR-transgenic (Tg) CTLA-4-deficient mice, it has been believed that CTLA-4 does not affect thymocyte development. To focus upon the in vivo function of CTLA-4 in thymocyte development from a different aspect, we have established Tg mice expressing either full-length CTLA-4 (FL-Tg) or a mutant CTLA-4 lacking the cytoplasmic region (truncated, TR-Tg), and analyzed thymocyte development. TR-T,cells express much higher CTLA-4 on the cell surface than FL-T,cells, in which most CTLA-4 was localized in intracellular vesicles. While CTLA-4,/, mice exhibit lymphoproliferative disease, neither of the Tg mice with CTLA-4,/, background developed the disorder. Although the development of thymocytes appeared normal in both Tg mice, in vivo depletion of double-positive thymocytes by injection of anti-CD3 Ab as well as the elimination of minor lymphocyte-stimulating antigen-reactive thymocytes were impaired in FL-Tg mice but not in TR-Tg mice. Functionally, cross-linking of CTLA-4 on thymocytes from FL-Tg mice, but not from TR-Tg mice, inhibited proliferation. These results reveal a potential role of CTLA-4, through its cytoplasmic domain, in the negative selection of thymocytes and in the prevention of lymphoproliferative disease. [source] Inhibition of Notch signaling biases rat thymocyte development towards the NK cell lineageEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 5 2004Jens van den Brandt Abstract Notch receptors are involved in directing the choice between alternative cell fates in developmental scenarios such as thymopoiesis. By pharmacological interference in rat fetal thymus organ culture we show that inhibition of Notch signaling arrests T,cell development at an early double-negative stage and is accompanied by a dramatic increase in the number of NK cells. These cells show an activated phenotype, lack recombination of the TCR, gene locus and express perforin. Similarly, in thymic lobes reconstituted with fetal liver cells, progenitors predominantly develop into NK cells both after pharmacological interference of Notch and after treatment with a recombinant rat Notch1/Fc chimera. Collectively, this identifies the lineage decision of NK/T precursor cells as an important site of Notch action in rat thymocytes. [source] The RhoA- and CDC42-specific exchange factor Dbs promotes expansion of immature thymocytes and deletion of double-positive and single-positive thymocytesEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 3 2004Abstract Specific members of the Rho family of GTPases exert unique influences on thymocyte proliferation, differentiation and deletion. Dbs is a guanine nucleotide exchange factor which is expressed throughout thymocyte development and is able to activate the Rho family GTPases CDC42, RhoA and RhoG. Transgenic mice expressing an activated form of Dbs had increased numbers of double-negative thymocytes. The Dbs transgene promoted expansion of double-negative thymocytes in the absence of pre-TCR, but had no effect on pre-TCR-dependent differentiation of double-negative thymocytes into double-positive thymocytes. Transgenic double-positive thymocytes were proliferative in vivo, but were also susceptible to apoptosis in vivo and in vitro. The transgenic single-positive thymocytes had attenuated proliferative responses following TCR ligation, and were depleted rather than expanded during culture in the presence of anti-CD3. When expressing a positively selectable TCR, transgenic double-positive thymocytes were increased in number and activated, but the output of single-positive thymocytes was reduced. Transgenic double-positive thymocytes were acutely sensitive to deletion by TCR ligation in vivo. These results indicate that activation of Dbs has the potential to promote proliferation throughout thymocyte development, but also sensitizes double-positive and single-positive thymocytes to deletion. [source] Thymic epithelial cells provide Wnt signals to developing thymocytesEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 7 2003Judit Pongracz Abstract Interactions with thymic stromal cells are known to be critical for the development of T,cells from progenitors entering the thymus, yet the molecular mechanisms of stromal cell function remain poorly understood. Accumulating evidence has highlighted the importance of ,-catenin-mediated activation of T,cell factor (TCF)/lymphoid enhancer factor (LEF) transcription during thymocyte development. As regulation of this signaling pathway is controlled by binding of soluble Wnt proteins to cell surface Frizzled (Fz) receptors, we studied components of Wnt/Fz-mediated signaling in thecontext of stromal cell regulation of thymocyte development. We show that mRNA for a variety of Wnt family members, notably Wnt-4, Wnt-7a and 7b, and Wnt-10a and 10b, are expressed by thymic epithelium rather then by thymocytes, while thymocytes demonstrate a developmentally regulated pattern of Fz receptor expression. Collectively these findings suggest (1) a functional role for Wnt-producing thymic epithelium in determining TCF/LEF-mediated transcriptional regulation in Fz-bearing thymocytes, and (2) a role for defined Wnt-Fz interactions at successive stages of thymocyte maturation. In support of this we show that separation of thymocytes from Wnt-producing epithelial cells and the thymic microenvironment, triggers ,-catenin phosphorylation and degradation in thymocytes. Thus, sustained exposure to Wnt in the context of an intact stromal microenvironment is necessary for stabilization of ,-catenin-mediated signaling in thymocytes. [source] Recent insights into the signals that control ,,/,,-lineage fateIMMUNOLOGICAL REVIEWS, Issue 1 2006Jens Peter H. Lauritsen Summary:, During thymopoiesis, two major types of mature T cells are generated that can be distinguished by the clonotypic subunits contained within their T-cell receptor (TCR) complexes: ,, T cells and ,, T cells. Although there is no consensus as to the exact developmental stage where ,, and ,, T-cell lineages diverge, ,, T cells and precursors to the ,, T-cell lineage (bearing the pre-TCR) are thought to be derived from a common CD4,CD8, double-negative precursor. The role of the TCR in ,,/,, lineage commitment has been controversial, in particular whether different TCR isotypes intrinsically favor adoption of the corresponding lineage. Recent evidence supports a signal strength model of lineage commitment, whereby stronger signals promote ,, development and weaker signals promote adoption of the ,, fate, irrespective of the TCR isotype from which the signals originate. Moreover, differences in the amplitude of activation of the extracellular signal-regulated kinase- mitogen-activated protein kinase-early growth response pathway appear to play a critical role. These findings will be placed in context of previous analyses in an effort to more precisely define the signals that control T-lineage fate during thymocyte development. [source] Thymic generation and regenerationIMMUNOLOGICAL REVIEWS, Issue 1 2003Jason Gill Summary:, The thymus is a complex epithelial organ in which thymocyte development is dependent upon the sequential contribution of morphologically and phenotypically distinct stromal cell compartments. It is these microenvironments that provide the unique combination of cellular interactions, cytokines, and chemokines to induce thymocyte precursors to undergo a differentiation program that leads to the generation of functional T cells. Despite the indispensable role of thymic epithelium in the generation of T cells, the mediators of this process and the differentiation pathway undertaken by the primordial thymic epithelial cells are not well defined. There is a lack of lineage-specific cell-surface-associated markers, which are needed to characterize putative thymic epithelial stem cell populations. This review explores the role of thymic stromal cells in T-cell development and thymic organogenesis, as well as the molecular signals that contribute to the growth and expansion of primordial thymic epithelial cells. It highlights recent advances in these areas, which have allowed for a lineage relationship amongst thymic epithelial cell subsets to be proposed. While many fundamental questions remain to be addressed, collectively these works have broadened our understanding of how the thymic epithelium becomes specialized in the ability to support thymocyte differentiation. They should also facilitate the development of novel, rationally based therapeutic strategies for the regeneration and manipulation of thymic function in the treatment of many clinical conditions in which defective T cells have an important etiological role. [source] Thymic development and repertoire selection: the rat perspectiveIMMUNOLOGICAL REVIEWS, Issue 1 2001Thomas Hünig Summary: This review summarizes our current knowledge of T-cell maturation and repertoire selection in the rat thymus. Some unique features of early thymocyte development and of CD4/CD8 lineage decision are described. A detailed analysis of lineage progression through the CD4, CD8 "double positive" compartment and T-cell receptor-induced CD8 T-cell maturation in cell culture is provided. A second emphasis is placed on interactions between germline-encoded T-cell receptor elements with MHC molecules in thymic repertoire selection and alloreactivity [source] | ||||||||||