-
[show abstract]
[hide abstract]
ABSTRACT: The generation of the cytotoxic CD8 T cell response is dependent on the functional outcomes imposed by the intrathymic constraints of differentiation and self-tolerance. Although thymic function can be partly replicated in vitro using OP9-DL1 cell cultures to yield CD8 αβ TCR-bearing cells from hematopoietic progenitor cells, a comprehensive and functional assessment of entirely in vitro generated CD8 T cells derived from bone marrow hematopoietic stem cells has not been established and remains controversial. In this study, we demonstrate that a phenotypic, molecular, and functional signature of in vitro derived CD8 T cells is akin to that of ex vivo CD8 T cells, although several significant differences were also observed. Transfer of in vitro derived CD8 T cells into syngeneic and immunodeficient host mice showed no graft-versus-host response, whereas a robust homeostatic proliferation was observed, respectively. These findings, along with a diverse and broad TCR repertoire expressed by the in vitro derived CD8 T cells, allowed for the successful generation of Ag-specific T cells to be obtained from an entirely in vitro generated CD8 T cell pool. These findings support the use of Ag-specific in vitro derived effector CD8 T cells for immune reconstitution approaches, which would be amenable to further tailoring for their use against viral infections or malignancies.
The Journal of Immunology 08/2012; 189(7):3411-20. · 5.79 Impact Factor
-
Jun R. Huh,
Monica W. L. Leung,
Pengxiang Huang,
Daniel A. Ryan,
Michael R. Krout,
Raghu R. V. Malapaka,
Jonathan Chow,
Nicolas Manel, Maria Ciofani,
Sangwon V. Kim,
Adolfo Cuesta,
Fabio R. Santori,
Juan J. Lafaille,
H. Eric Xu,
David Y. Gin,
Fraydoon Rastinejad,
Dan R. Littman
Nature 03/2011; 472(7344):486-490. · 36.28 Impact Factor
-
Jun R Huh,
Monica W L Leung,
Pengxiang Huang,
Daniel A Ryan,
Michael R Krout,
Raghu R V Malapaka,
Jonathan Chow,
Nicolas Manel, Maria Ciofani,
Sangwon V Kim,
Adolfo Cuesta,
Fabio R Santori,
Juan J Lafaille,
H Eric Xu,
David Y Gin,
Fraydoon Rastinejad,
Dan R Littman
[show abstract]
[hide abstract]
ABSTRACT: CD4(+) T helper lymphocytes that express interleukin-17 (T(H)17 cells) have critical roles in mouse models of autoimmunity, and there is mounting evidence that they also influence inflammatory processes in humans. Genome-wide association studies in humans have linked genes involved in T(H)17 cell differentiation and function with susceptibility to Crohn's disease, rheumatoid arthritis and psoriasis. Thus, the pathway towards differentiation of T(H)17 cells and, perhaps, of related innate lymphoid cells with similar effector functions, is an attractive target for therapeutic applications. Mouse and human T(H)17 cells are distinguished by expression of the retinoic acid receptor-related orphan nuclear receptor RORγt, which is required for induction of IL-17 transcription and for the manifestation of T(H)17-dependent autoimmune disease in mice. By performing a chemical screen with an insect cell-based reporter system, we identified the cardiac glycoside digoxin as a specific inhibitor of RORγt transcriptional activity. Digoxin inhibited murine T(H)17 cell differentiation without affecting differentiation of other T cell lineages and was effective in delaying the onset and reducing the severity of autoimmune disease in mice. At high concentrations, digoxin is toxic for human cells, but non-toxic synthetic derivatives 20,22-dihydrodigoxin-21,23-diol and digoxin-21-salicylidene specifically inhibited induction of IL-17 in human CD4(+) T cells. Using these small-molecule compounds, we demonstrate that RORγt is important for the maintenance of IL-17 expression in mouse and human effector T cells. These data indicate that derivatives of digoxin can be used as chemical templates for the development of RORγt-targeted therapeutic agents that attenuate inflammatory lymphocyte function and autoimmune disease.
Nature 03/2011; 472(7344):486-90. · 36.28 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The thymus produces several types of functionally distinct T cell subsets. However, at a more fundamental level only two genetically distinct T cell lineages exist: the γδ and αß T cell lineages. Precisely how these two T cell lineages are generated from common thymocyte progenitor cells remains to be fully elucidated and is under intense investigation. Here, we highlight recent findings that have helped to provide important clues to the mechanisms that underpin the generation of γδ T cells in the mouse thymus.
Nature Reviews Immunology 09/2010; 10(9):657-63. · 32.25 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The stability of a lineage program (cellular memory) is dependent on mechanisms that epigenetically maintain active or repressed states of gene expression (transcriptional memory). Although epigenetic silencing of genes has been clearly demonstrated from yeast to mammals, heritable maintenance of active transcription has been less clearly defined. To investigate the potential role of active transcriptional memory during lineage diversification, we employed targeted mutation of a positive-acting cis element in the Cd4 locus to determine the impact on CD4 expression and the differentiation of CD4(+) helper T cells in mice. We show that the proximal enhancer (E4(P)) of Cd4 is essential for CD4 expression in immature CD4(+)8(+) thymocytes. Furthermore, its loss resulted in reduced and unstable expression of CD4 in mature T cells. However, if the enhancer was deleted after cells had already committed to the helper T-cell lineage, CD4 expression remained high and was stable upon cell division. "Active" histone modifications, once initiated by E4(P), were also propagated independently of the enhancer. Thus, E4(P) is responsible for establishing an epigenetically inherited active Cd4 locus in the helper T-cell lineage. To our knowledge, this is the first genetic demonstration of active transcriptional memory in mammalian cells.
Genes & development 04/2010; 24(7):659-69. · 12.08 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: alphabeta and gammadelta T cells arise from a common thymocyte progenitor during development in the thymus. Emerging evidence suggests that the pre-T cell receptor (pre-TCR) and gammadelta T cell receptor (gammadeltaTCR) play instructional roles in specifying the alphabeta and gammadelta T-lineage fates, respectively. Nevertheless, the signaling pathways differentially engaged to specify fate and promote the development of these lineages remain poorly understood. Here, we show that differential activation of the extracellular signal-related kinase (ERK)-early growth response gene (Egr)-inhibitor of DNA binding 3 (Id3) pathway plays a defining role in this process. In particular, Id3 expression served to regulate adoption of the gammadelta fate. Moreover, Id3 was both necessary and sufficient to enable gammadelta-lineage cells to differentiate independently of Notch signaling and become competent IFNgamma-producing effectors. Taken together, these findings identify Id3 as a central player that controls both adoption of the gammadelta fate and its maturation in the thymus.
Immunity 10/2009; 31(4):565-75. · 21.64 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Notch1 signalling is essential for the commitment of multipotent lymphocyte precursors towards the alphabeta T-cell lineage and plays an important role in regulating beta-selection in CD4(-)CD8(-) double-negative (DN) thymocytes. However, the role played by Notch in promoting the development of CD4(+)CD8(+) double-positive (DP) thymocytes is poorly characterized. Here, we demonstrate that the introduction of a constitutively active Notch1 (ICN1) construct into RAG(-/-) lymphocyte precursors resulted in the generation of DP thymocytes in in vitro T-cell culture systems. Notably, developmental rescue was dependent not only on the presence of an intact Notch1 RAM domain but also on Delta-like signals, as ICN1-induced DP development in RAG(-/-) thymocytes occurred within an intact thymus or in OP9-DL1 co-cultures, but not in OP9-control co-cultures. Interestingly, ICN1 expression in SLP-76(-/-) precursors resulted in only a minimal developmental rescue to the immature CD8(+) single-positive stage, suggesting that Notch is utilizing the same signalling pathway as the pre-TCR complex. In support of this, ICN1 introduction resulted in the activation of the ERK-MAPK-signalling cascade in RAG(-/-) thymocytes. Taken together, these studies demonstrate that constitutive Notch signalling can bypass beta-selection during early T-cell development by inducing pre-TCR-like signals within a T-cell-promoting environment.
International Immunology 01/2008; 19(12):1421-30. · 3.41 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Development of immature T cell precursors beyond the beta-selection checkpoint is regulated by signals transduced by the pre-TCR complex. The pre-TCR-induced differentiation program is orchestrated by a network of transcription factors that serve to integrate this signaling information. Among these transcription factors are those of the early growth response (Egr) and NF-AT families. In this study, we demonstrate that Egr1 and NF-ATc1 act together to promote development of T cell precursors beyond the beta-selection checkpoint to the CD8 immature single-positive and CD4+ CD8+ double-positive stages. Moreover, we find that Egr1 and NF-AT cooperatively induce the expression of inhibitor of DNA binding 3 (Id3), a regulatory factor known to play an important role in positive selection of thymocytes, but not previously demonstrated to be required for beta-selection. Importantly, we show in this study that Id3 deficiency abrogates the ability of ectopically expressed Egr1 to promote traversal of the beta-selection checkpoint. Id3 is presumably essential for traversal of the beta-selection checkpoint in this context because of the inability of other inhibitor of DNA binding family members to compensate, since transgenic Egr1 does not induce expression of inhibitor of DNA binding 1 (Id1) or 2 (Id2). Taken together, these data demonstrate that Id3 is a cooperatively induced target that is important for Egr-mediated promotion of development beyond the beta-selection checkpoint. Moreover, these data indicate that the ERK and calcium signaling pathways may converge during beta-selection through the concerted action of Egr1 and NF-ATc1, respectively.
The Journal of Immunology 11/2007; 179(7):4694-703. · 5.79 Impact Factor
-
Teresa Palomero,
Maria Luisa Sulis,
Maria Cortina,
Pedro J Real,
Kelly Barnes, Maria Ciofani,
Esther Caparros,
Jean Buteau,
Kristy Brown,
Sherrie L Perkins,
Govind Bhagat,
Archana M Agarwal,
Giuseppe Basso,
Mireia Castillo,
Satoru Nagase,
Carlos Cordon-Cardo,
Ramon Parsons,
Juan Carlos Zúñiga-Pflücker,
Maria Dominguez,
Adolfo A Ferrando
[show abstract]
[hide abstract]
ABSTRACT: Gain-of-function mutations in NOTCH1 are common in T-cell lymphoblastic leukemias and lymphomas (T-ALL), making this receptor a promising target for drugs such as gamma-secretase inhibitors, which block a proteolytic cleavage required for NOTCH1 activation. However, the enthusiasm for these therapies has been tempered by tumor resistance and the paucity of information on the oncogenic programs regulated by oncogenic NOTCH1. Here we show that NOTCH1 regulates the expression of PTEN (encoding phosphatase and tensin homolog) and the activity of the phosphoinositol-3 kinase (PI3K)-AKT signaling pathway in normal and leukemic T cells. Notch signaling and the PI3K-AKT pathway synergize in vivo in a Drosophila melanogaster model of Notch-induced tumorigenesis, and mutational loss of PTEN is associated with human T-ALL resistance to pharmacological inhibition of NOTCH1. Overall, these findings identify transcriptional control of PTEN and regulation of the PI3K-AKT pathway as key elements of the leukemogenic program activated by NOTCH1 and provide the basis for the design of new therapeutic strategies for T-ALL.
Nature Medicine 11/2007; 13(10):1203-10. · 22.46 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Like all hematopoietic cells, T lymphocytes are derived from bone-marrow-resident stem cells. However, whereas most blood lineages are generated within the marrow, the majority of T cell development occurs in a specialized organ, the thymus. This distinction underscores the unique capacity of the thymic microenvironment to support T lineage restriction and differentiation. Although the identity of many of the contributing thymus-derived signals is well established and rooted in highly conserved pathways involving Notch, morphogenetic, and protein tyrosine kinase signals, the manner in which the ensuing cascades are integrated to orchestrate the underlying processes of T cell development remains under investigation. This review focuses on the current definition of the early stages of T cell lymphopoiesis, with an emphasis on the nature of thymus-derived signals delivered to T cell progenitors that support the commitment and differentiation of T cells toward the alphabeta and gammadelta T cell lineages.
Annual Review of Cell and Developmental Biology 02/2007; 23:463-93. · 15.84 Impact Factor
-
Anne Aublin, Maria Ciofani,
Nancy Willkomm,
Abdelbasset Hamrouni,
Andrea L Szymczak-Workman,
Tomio Takahashi,
Yongoua Sandjeu,
Philippe Guillaume,
Dario A A Vignali,
Olivier Michielin,
Juan Carlos Zúñiga-Pflücker,
Janet L Maryanski
[show abstract]
[hide abstract]
ABSTRACT: The Cbeta0 alternate cassette exon is located between the Jbeta1 and Cbeta1 genes in the mouse TCR beta-locus. In T cells with a VDJbeta1 rearrangement, the Cbeta0 exon may be included in TCRbeta transcripts (herein called TCRbeta-Cbeta0 transcripts), potentially inserting an additional 24 aa between the V and C domains of the TCR beta-chain. These TCRbeta splice isoforms may be differentially regulated after Ag activation, because we detected TCRbeta-Cbeta0 transcripts in a high proportion (>60%) of immature and mature T cells having VDJbeta1 rearrangements but found a substantially reduced frequency (<35%) of TCRbeta-Cbeta0 expression among CD8 T cells selected by Ag in vivo. To study the potential activity of the TCRbeta-Cbeta0 splice variant, we cloned full-length TCR cDNAs by single-cell RT-PCR into retroviral expression vectors. We found that the TCRbeta-Cbeta0 splice isoform can function during an early stage of T cell development normally dependent on TCR beta-chain expression. We also demonstrate that T hybridoma-derived cells expressing a TCRbeta-Cbeta0 isoform together with the clonally associated TCR alpha-chain recognize the same cognate peptide-MHC ligand as the corresponding normal alphabetaTCR. This maintenance of receptor function and specificity upon insertion of the Cbeta0 peptide cassette signifies a remarkable adaptability for the TCR beta-chain, and our findings open the possibility that this splice isoform may function in vivo.
The Journal of Immunology 01/2007; 177(12):8587-94. · 5.79 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Signals transduced by Notch receptors are indispensable for T cell specification and differentiation of alphabeta T lineage cells. However, the role of Notch signals during alphabeta versus gammadelta T lineage decision remains controversial. Here, we addressed this question by employing a clonal analysis of CD4(-)CD8(-) (DN) progenitor potential to position the divergence of alphabeta and gammadelta T cell lineages to the late DN2 to DN3 developmental stages. Accordingly, alphabeta and gammadelta precursor frequencies within these T cell progenitor subsets were determined, both in the presence and absence of Notch signaling through Delta-like 1. Notch signals were found to be critical for the DN to CD4(+)CD8(+) (DP) transition, irrespective of the identity (pTalphabeta or gammadelta) of the inducing T cell receptor complex, whereas gammadelta T cells developed from gammadeltaTCR-expressing T cell progenitors in the absence of further Notch ligand interaction. Collectively, our findings demonstrate a differential, stage-specific requirement for Notch receptor-ligand interactions in the differentiation of alphabeta and gammadelta T cells from T cell progenitors.
Immunity 08/2006; 25(1):105-16. · 21.64 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: In this issue of Immunity, Kersh and colleagues (Xi et al., 2006) investigate the regulatory network that permits two otherwise clashing cellular processes--proliferation and gene rearrangement--to occur at temporally distinct periods following the formation of the pre-T cell receptor (pre-TCR) complex.
Immunity 07/2006; 24(6):669-70. · 21.64 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The survival of immature T cell precursors is dependent on both thymus-derived extrinsic signals and self-autonomous pre-TCR-mediated signals. While the role of cytokines and the pre-TCR in promoting thymocyte survival has been well established, the relationship between pro- and anti-apoptotic signaling cascades remains poorly defined. Recent studies have established a link between cell survival and growth factor-mediated maintenance of cellular metabolism. In this regard, the Notch signaling pathway has emerged as more than an inducer of T lineage commitment and differentiation, but also as a potent trophic factor, promoting the survival and metabolic state of pre-T cells. In this review, we describe current concepts of the intracellular signaling pathways downstream of cell intrinsic and extrinsic factors that dictate survival versus death outcomes during early T cell development.
Immunologic Research 02/2006; 34(2):117-32. · 3.03 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Notch signals are necessary for the functional outcomes of T cell receptor beta-selection, including differentiation, proliferation and rescue from apoptosis. The mechanism underlying this requirement for T cell development is unknown. Here we show that Notch receptor and Delta-like 1 ligand interactions promoted the survival of CD4(-)CD8(-) pre-T cells through the maintenance of cell size, glucose uptake and metabolism. Furthermore, the trophic effects of Notch signaling were mediated by the pathway of phosphatidylinositol-3-OH kinase and the kinase Akt, such that expression of active Atk overcame the requirement for Notch in beta-selection. Collectively, our results demonstrate involvement of Notch receptor-ligand interactions in the regulation of cellular metabolism, thus enabling the autonomous signaling capacity of the pre-T cell receptor complex.
Nature Immunology 10/2005; 6(9):881-8. · 26.01 Impact Factor
-
Malay Mandal,
Christine Borowski,
Teresa Palomero,
Adolfo A Ferrando,
Philipp Oberdoerffer,
Fanyong Meng,
Antonio Ruiz-Vela, Maria Ciofani,
Juan-Carlos Zuniga-Pflucker,
Isabella Screpanti,
A Thomas Look,
Stanley J Korsmeyer,
Klaus Rajewsky,
Harald von Boehmer,
Iannis Aifantis
[show abstract]
[hide abstract]
ABSTRACT: The pre-T cell receptor (TCR) is expressed early during T cell development and imposes a tight selection for differentiating T cell progenitors. Pre-TCR-expressing cells are selected to survive and differentiate further, whereas pre-TCR(-) cells are "negatively" selected to die. The mechanisms of pre-TCR-mediated survival are poorly understood. Here, we describe the induction of the antiapoptotic gene BCL2A1 (A1) as a potential mechanism regulating inhibition of pre-T cell death. We characterize in detail the signaling pathway involved in A1 induction and show that A1 expression can induce pre-T cell survival by inhibiting activation of caspase-3. Moreover, we show that in vitro "knockdown" of A1 expression can compromise survival even in the presence of a functional pre-TCR. Finally, we suggest that pre-TCR-induced A1 overexpression can contribute to T cell leukemia in both mice and humans.
Journal of Experimental Medicine 03/2005; 201(4):603-14. · 13.85 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Notch signaling has been shown to play a pivotal role in inducing T lineage commitment. However, T cell progenitors are known to retain other lineage potential long after the first point at which Notch signaling is required. Thus, additional requirements for Notch signals and the timing of these events relative to intrathymic differentiation remain unknown. Here, we address this issue by culturing subsets of CD4 CD8 double negative (DN) thymocytes on control stromal cells or stromal cells expressing Delta-like 1 (Dll1). All DN subsets were found to require Notch signals to differentiate into CD4+ CD8+ T cells. Using clonal analyses, we show that CD44+ CD25+ (DN2) cells, which appeared committed to the T cell lineage when cultured on Dll1-expressing stromal cells, nonetheless gave rise to natural killer cells with a progenitor frequency similar to that of CD44+ CD25- (DN1) thymocytes when Notch signaling was absent. These data, together with the observation that Dll1 is expressed on stromal cells throughout the thymic cortex, indicates that Notch receptor-ligand interactions are necessary for induction and maintenance of T cell lineage specification at both the DN1 and DN2 stages of T cell development, suggesting that the Notch-induced repression of the B cell fate is temporally separate from Notch-induced commitment to the T lineage.
Journal of Experimental Medicine 09/2004; 200(4):469-79. · 13.85 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The first checkpoint during T cell development, known as beta selection, requires the successful rearrangement of the TCR-beta gene locus. Notch signaling has been implicated in various stages during T lymphopoiesis. However, it is unclear whether Notch receptor-ligand interactions are necessary during beta selection. Here, we show that pre-TCR signaling concurrent with Notch receptor and Delta-like-1 ligand interactions are required for the survival, proliferation, and differentiation of mouse CD4(-)CD8(-) thymocytes to the CD4(+)CD8(+) stage. Furthermore, we address the minimal signaling requirements underlying beta selection and show a hierarchical positioning of key proximal signaling molecules. Collectively, our results demonstrate an essential role for Notch receptor-ligand interactions in enabling the autonomous signaling capacity of the pre-TCR complex.
The Journal of Immunology 06/2004; 172(9):5230-9. · 5.79 Impact Factor
-
Hitoshi Okada,
Chris Bakal,
Arda Shahinian,
Andrew Elia,
Andrew Wakeham,
Woong-Kyung Suh,
Gordon S Duncan, Maria Ciofani,
Robert Rottapel,
Juan Carlos Zúñiga-Pflücker,
Tak W Mak
[show abstract]
[hide abstract]
ABSTRACT: Because survivin-null embryos die at an early embryonic stage, the role of survivin in thymocyte development is unknown. We have investigated the role by deleting the survivin gene only in the T lineage and show here that loss of survivin blocks the transition from CD4- CD8- double negative (DN) thymocytes to CD4+ CD8+ double positive cells. Although the pre-T cell receptor signaling pathway is intact in survivin-deficient thymocytes, the cells cannot respond to its signals. In response to proliferative stimuli, cycling survivin-deficient DN cells exhibit cell cycle arrest, a spindle formation defect, and increased cell death. Strikingly, loss of survivin activates the tumor suppressor p53. However, the developmental defects caused by survivin deficiency cannot be rescued by p53 inactivation or introduction of Bcl-2. These lines of evidence indicate that developing thymocytes depend on the cytoprotective function of survivin and that this function is tightly coupled to cell proliferation but independent of p53 and Bcl-2. Thus, survivin plays a critical role in early thymocyte development.
Journal of Experimental Medicine 03/2004; 199(3):399-410. · 13.85 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Pre-TCR complexes are thought to signal in a ligand-independent manner because they are constitutively targeted to lipid rafts. We report that ligand-independent signaling is not a unique capability of the pre-TCR complex. Indeed, the TCR alpha subunit restores development of pT alpha-deficient thymocytes to the CD4(+)CD8(+) stage even in the absence of conventional MHC class I and class II ligands. Moreover, we found that pre-TCR and alpha beta TCR complexes exhibit no appreciable difference in their association with lipid rafts, suggesting that ligand-independence is a function of the CD4(-)CD8(-) (DN) thymocytes in which pre-TCR signaling occurs. In agreement, we found that only CD44(-)CD25(+) DN thymocytes (DN3) enabled activation of extracellular signal-regulated kinases by the pre-TCR complex. DN thymocytes also exhibited a lower signaling threshold relative to CD4(+)CD8(+) thymocytes, which was associated with both the markedly elevated lipid raft content of their plasma membranes and more robust capacitative Ca(2+) entry. Taken together these data suggest that cell-autonomous, ligand-independent signaling is primarily a property of the thymocytes in which pre-TCR signaling occurs.
The Journal of Immunology 04/2003; 170(6):2853-61. · 5.79 Impact Factor
