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1.
Int Immunol ; 21(6): 727-43, 2009 Jun.
Article in English | MEDLINE | ID: mdl-19461123

ABSTRACT

Dysregulated generation and/or function of naturally occurring 'CD4(+)CD25(+) regulatory T cells' (T(reg)s) play key role in the development of autoimmune diseases, including type 1 diabetes. Recent findings suggest that Notch3 signaling activation promotes thymic generation and peripheral expansion and in vivo function of naturally occurring T(reg)s, thus preventing autoimmune diabetes progression in mouse models. However, the mechanisms underlying these effects have remained elusive, thus far. Here, we show that the expression of pTalpha gene is up-regulated in naturally occurring T(reg)s, at both mRNA and protein levels. Moreover, by using double mutant mice, with T cell-targeted constitutive activation of Notch3 in a pTalpha(-/-) background, we demonstrate that pTalpha deletion significantly counteracts the Notch3-dependent expansion, the increased FoxP3 expression and the enhanced in vitro activity of naturally occurring T(reg)s. Notably, the absence of pTalpha also impairs the Notch3-dependent protection against experimentally induced autoimmune diabetes. Finally, by adoptive cell transfer experiments, we demonstrated that this failure is directly related to the impaired in vivo function of naturally occurring T(reg)s bearing pTalpha deletion. Collectively, our data suggest that pTalpha expression is required for the in vivo function of naturally occurring T(reg)s and that the activation of Notch3 signaling may positively regulate the function of this population, through the pTalpha/pre-T cell receptor pathway.


Subject(s)
Diabetes Mellitus, Type 1/immunology , Membrane Glycoproteins/metabolism , Precursor Cells, T-Lymphoid/metabolism , Receptors, Antigen, T-Cell, alpha-beta/metabolism , Receptors, Notch/metabolism , T-Lymphocytes, Regulatory/metabolism , Animals , Cell Proliferation , Forkhead Transcription Factors/biosynthesis , Immune Tolerance/genetics , Membrane Glycoproteins/genetics , Membrane Glycoproteins/immunology , Mice , Mice, Inbred C57BL , Mice, Knockout , Mice, Transgenic , Precursor Cells, T-Lymphoid/immunology , Precursor Cells, T-Lymphoid/pathology , Receptor, Notch3 , Receptors, Antigen, T-Cell, alpha-beta/genetics , Receptors, Antigen, T-Cell, alpha-beta/immunology , Receptors, Notch/genetics , Receptors, Notch/immunology , Signal Transduction/genetics , Signal Transduction/immunology , T-Lymphocytes, Regulatory/immunology , T-Lymphocytes, Regulatory/pathology , Transcriptional Activation
2.
Cancer Res ; 69(4): 1314-23, 2009 Feb 15.
Article in English | MEDLINE | ID: mdl-19208840

ABSTRACT

The Notch ligand Dll4 has a recognized role during both physiologic and tumor angiogenesis, as it contributes to regulate Notch activity in endothelial cells (EC). The effects of Dll4 on Notch signaling in tumor cells expressing Notch receptors remain, however, largely unknown. Here, we report that escape of human T-cell acute lymphoblastic leukemia (T-ALL) cells or colorectal cancer cells from dormancy is associated with Dll4 expression in the tumor microenvironment and increased Notch3 signaling in tumor cells. Dll4 was expressed at early time points during the angiogenic process, and its expression preceded perfusion of the newly established vessels. Treatment of EC with angiogenic factors induced Dll4 expression and increased Notch3 activation in cocultured T-ALL cells. Neutralization of Dll4 greatly reduced EC-mediated activation of Notch 3 signaling in T-ALL cells and blocked tumorigenesis. Moreover, silencing Notch3 by RNA interference had marked antiproliferative and proapoptotic effects on T-ALL cells in vitro and reduced tumorigenicity in vivo. Our results elucidate a novel mechanism by which a direct interplay between endothelial and tumor cells promotes survival and triggers tumor growth.


Subject(s)
Cell Communication/physiology , Colorectal Neoplasms/physiopathology , Endothelial Cells/physiology , Intercellular Signaling Peptides and Proteins/physiology , Precursor T-Cell Lymphoblastic Leukemia-Lymphoma/physiopathology , Receptors, Notch/physiology , Adaptor Proteins, Signal Transducing , Animals , Calcium-Binding Proteins , Cell Line, Tumor , Cell Survival , Coculture Techniques , Colorectal Neoplasms/pathology , Female , Gene Expression Regulation, Neoplastic , Gene Silencing , Genes, Reporter , Humans , Intercellular Signaling Peptides and Proteins/genetics , Jurkat Cells , Mice , Mice, Inbred NOD , Mice, SCID , Precursor T-Cell Lymphoblastic Leukemia-Lymphoma/pathology , RNA, Messenger/genetics , RNA, Neoplasm/genetics , Receptor, Notch3 , Receptors, Notch/genetics , Reverse Transcriptase Polymerase Chain Reaction
3.
Cell Cycle ; 6(22): 2730-4, 2007 Nov 15.
Article in English | MEDLINE | ID: mdl-18032925

ABSTRACT

Notch3 overexpression has been observed in virtually 100% of T cell acute lymphoblastic leukemia (T-ALL). A high percentage of infant B- and T-ALLs also display an increased expression of non DNA-binding Ikaros isoforms. It has been suggested that increased expression of non DNA-binding Ikaros isoforms and constitutively activated Notch play a cooperative role in leukemogenesis, converging on the transcriptional regulation of one or more key genes. Thus far however no demonstration of a direct link between aberrant Notch signalling and altered Ikaros isoform expression has been reported. We recently suggested that pre-TCR is the missing link between Notch and Ikaros in T cell leukemogenesis. Our studies demonstrate that the presence of pre-TCR is required to sustain a Notch3-induced altered expression of spliced Ikaros isoforms. Moreover, we identified HuD, an RNA-binding protein able to regulate both mRNA stability and alternative splicing, as the potential pre-TCR-dependent mediator of Notch3 activity. HuD is able to dysregulate the expression pattern of Ikaros isoforms, thus favouring the shift towards non DNA-binding Ikaros isoforms. We finally showed that the increased expression of non DNA-binding Ikaros isoforms is able to restrain the inhibition exerted by Ikaros on Notch3-dependent transcriptional activation of pTa promoter, thus resulting in its significant upregulation. Our findings may help in clarifying the regulatory mechanism of Ikaros alternative splicing and suggest a crosstalk among Notch3, pre-TCR signalling and spliced Ikaros variants in T cell leukemogenesis, mediated by HuD.


Subject(s)
Ikaros Transcription Factor/physiology , Leukemia, T-Cell/metabolism , Receptors, Notch/physiology , Animals , Gene Expression Regulation, Neoplastic/physiology , Humans , Ikaros Transcription Factor/biosynthesis , Ikaros Transcription Factor/genetics , Leukemia, T-Cell/genetics , Receptors, Notch/biosynthesis , Receptors, Notch/genetics , Signal Transduction/physiology
4.
EMBO J ; 26(6): 1670-80, 2007 Mar 21.
Article in English | MEDLINE | ID: mdl-17332745

ABSTRACT

Constitutive activation of the transmembrane receptor, Notch3, and loss of function of the hematopoietic transcription repressor, Ikaros (IK), play direct roles in T-cell differentiation and leukemogenesis that are dependent on pre-T-cell receptor (pre-TCR) signaling. We demonstrate the occurrence of crosstalk between Notch3 and IK that results in transcriptional regulation of the gene encoding the pTalpha chain of the pre-TCR. We also show that, in the presence of the pre-TCR, constitutive activation of Notch3 in thymocytes causes increased expression of dominantnegative non-DNA-binding IK isoforms, which are able to restrain the IK inhibition of Notch3's transcriptional activation of pTalpha. This effect appears to be mediated by Notch3's pre-TCR-dependent upregulation of the RNA-binding protein, HuD. Notch3 signaling thus appears to play a critical role in the diminished IK activity described in several lymphoid leukemias. By exerting transcription-activating and transcription-repressing effects on the pTalpha promoter, Notch3 and IK cooperate in the fine-tuning of pre-TCR expression and function, which has important implications for the regulation of thymocyte differentiation and proliferation.


Subject(s)
Alternative Splicing/physiology , ELAV Proteins/metabolism , Gene Expression Regulation/physiology , Ikaros Transcription Factor/physiology , Receptors, Notch/metabolism , Signal Transduction/physiology , T-Lymphocytes/cytology , Alternative Splicing/genetics , Animals , Blotting, Western , Cell Differentiation/physiology , Cell Proliferation , Chromatin Immunoprecipitation , DNA Primers , ELAV-Like Protein 4 , Electrophoretic Mobility Shift Assay , Flow Cytometry , Gene Expression Regulation/genetics , Ikaros Transcription Factor/genetics , Luciferases , Membrane Glycoproteins/metabolism , Mice , RNA Interference , Receptor, Notch3 , Receptors, Antigen, T-Cell, alpha-beta/metabolism , Reverse Transcriptase Polymerase Chain Reaction , Signal Transduction/genetics , T-Lymphocytes/metabolism
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