T-bet concomitantly controls migration, survival, and effector functions during the development of Vα14i NKT cells

Matsuda, Jennifer L.; Zhang, Qianjun; Ndonye, Rachel M.; Richardson, Stewart K.; Howell, Amy R.; Gapin, Laurent

doi:10.1182/blood-2005-08-3103

Cited by 132 publications

(151 citation statements)

References 53 publications

(97 reference statements)

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“…Interestingly, mRNAs encoding for members of the RNA-recognition-motif family of RNA-binding proteins, TIA-1 and TIAR, have been found enriched in iNKT cells [32,33]. mRNAs encoding for the chemokine RANTES (CCL5) have also been found to be constitutively expressed in iNKT cells [32,33], and a similar mechanism of post-transcriptional regulation of RANTES expression in memory "conventional" T cells has been described [34,35]. Altogether, these results suggest the possibility that iNKT might regulate, at least to some extent, their cytokine secretion through such a translational mechanism.…”

Section: Cytokine and Chemokine Productionmentioning

confidence: 99%

CD1d-restricted iNKT cells, the ‘Swiss-Army knife’ of the immune system

Matsuda

Mallevaey

Scott‐Browne

et al. 2008

Current Opinion in Immunology

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359

399

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SummaryNatural Killer T cells are a distinct lymphocyte lineage that regulates a broad range of immune responses. NKT cells recognize glycolipids presented by the non-classical MHC molecule CD1d. Structural insight into the TCR/glycolipid/CD1d tri-complex has revealed an unusual and unexpected mode of recognition. Recent studies have also identified some of the signaling events during NKT cell development that give NKT cells their innate phenotype. Pathogen-derived glycolipid antigens continue to be found, and new mechanisms of NKT cell activation have been described. Finally, NKT cells have been shown to be remarkably versatile in function during various immune responses. Whether these extensive functional capacities can be attributed to a single population sensitive to environmental cues or if functionally distinct NKT cell subpopulations exist remains unresolved.

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Section: Cytokine and Chemokine Productionmentioning

confidence: 99%

CD1d-restricted iNKT cells, the ‘Swiss-Army knife’ of the immune system

Matsuda

Mallevaey

Scott‐Browne

et al. 2008

Current Opinion in Immunology

Self Cite

359

399

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“…In addition to Th1 cells, T-bet is detected in several other immune cells, including CD8 ϩ T cells (3,5,6), dendritic cells (7), B cells (8), NK cells and NKT cells (9 -11). T-bet regulates expression of numerous immune systemassociated genes, including cytokines (4), cytokine receptors (9 -12), chemokines (7,11), chemokine receptors (4,11,13) and cytotoxicity (9,11). Altogether these results have established T-bet as an essential transcription factor in the generation and regulation of proper immune responses.…”

Section: Temporal Dissection Of T-bet Functionsmentioning

confidence: 99%

“…3A). We reported previously that ectopic expression of T-bet in T-bet Ϫ/Ϫ NKT cells induces expression of IL-2/IL-15R␤ (CD122) mRNA and cell surface expression of CD122 (10,11). Furthermore, recent data have emphasized the critical role of T-bet and its homolog Eomes in enhancing CD122 expression and consequently in controlling the survival of IL-15-dependent cells, including NKT, NK, and CD8 memory cells (9).…”

Section: Delayed Induction Of T-bet Activity In Developing Th2 Cellsmentioning

confidence: 99%

“…Furthermore, recent data have emphasized the critical role of T-bet and its homolog Eomes in enhancing CD122 expression and consequently in controlling the survival of IL-15-dependent cells, including NKT, NK, and CD8 memory cells (9). In addition, T-bet has been involved in the control of Th1 cell migration to inflammatory sites through its regulation of expression of the chemokine receptor CxCR3 (11,13). Altogether these results emphasize the importance of T-bet in regulating CD122 and CxCR3 expression in addition to IFN-␥.…”

Section: Delayed Induction Of T-bet Activity In Developing Th2 Cellsmentioning

confidence: 99%

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Temporal Dissection of T-bet Functions

Matsuda

George²,

Hagman

et al. 2007

The Journal of Immunology

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T-bet is a transcription factor of the T-box family that regulates the expression of numerous immune system-associated genes. T-bet directs the acquisition of the Th1-associated genetic program in differentiating CD4+ lymphocytes. It also influences the development of NK and NKT cells through its regulation of the IL-2/IL-15Rβ-chain (CD122) and the trafficking of these lymphocytes through CxCR3. The temporal requirements of T-bet activity for the production of IFN-γ and the regulation of CD122 and CxCR3 expression remain undefined. We produced an ectopically controllable form of T-bet by fusing its C-terminal domain with a mutated ligand-binding domain of human estrogen receptor α. By temporally controlling the expression of T-bet-estrogen receptor α by the addition or removal of 4-hydroxytamoxifen (4-HT), we show that IFN-γ, CD122, and CxCR3 are direct gene targets of T-bet whose expression are acutely regulated by T-bet activity.

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“…Finally, the many functions that have been attributed to iNKT cells, as likened to the many functions of a Swiss army knife, are summarized in a sixth review by Laurent Gapin et al This comprehensive article includes a succinct overview of the characteristics of iNKT cells, and outlines new findings concerning their development [e.g. [7]}. Plausible mechanisms for how a given cell type could have so many different functions are also put forth.…”

mentioning

confidence: 99%

Editorial overview

O’Brien¹

2008

Current Opinion in Immunology

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This volume of Current Opinion in Immunology: Lymphocyte Effector Functions highlights lymphocytes or lymphocyte functions that often fall outside the mainstream of immunological research. First, although CD4+ regulatory T cells (Tregs) have been studied extensively, CD8 + cells having similar functions have also been noted [1,2]. As reviewed in the first article in this volume by Jerry Niederkorn, these cells can prove critical in maintaining tolerance in certain organs and under particular conditions, including the normal eye, patients with multiple sclerosis, and in mice, in certain lung tumors and perhaps in chemically induced carcinomas as well. In the second article, Frances Lund has reviewed results from many studies pointing to the importance of B cells as producers of cytokines [3], apart from their role as the source of immunoglobulin. B cells producing type I (Be-1 cells), type 2 (Be-2 cells), and suppressive cytokines (Bregs) have been noted, most of which appear to arise from follicular B cells. The appreciation of such "effector B cells" is particularly timely in that B cell depletion as a therapy for various autoimmune disorders has now become common. In the third article, reports on the development of cytolytic T cells expressing CD4 rather than CD8 are reviewed for the human system by Rene van Lier. Though such cells have been noted in both mice and humans, Dr. van Lier summarizes evidence that in humans, the role of cytomegalovirus in promoting the development of CD4+ cytolytic T cells appears to be critical [4]. In the fourth article, recent findings concerning NK cells as lymphocyte effectors in the human system are reviewed by Yenan Bryceson and Eric Long. Activating and inhibitory receptors that have been identified thus far are tabulated, and recent findings examined for how these various signals are integrated within a given NK cell [5]. The fifth article focuses on a flurry of reports published in the last 2-3 years from different sources, showing that in various disease models in which T cells producing IL-17 appear to be of particular importance, the IL-17+ T cells are in large part represented by γδ T cells, rather than the CD4+ Th-17 cells that have been fairly extensively studied [e.g. [6]]. As summarized here in a review by Christina Roark et al., several different γδ T cell subsets have been found to produce IL-17. Moreover, differences between IL-17-producing γδ T cells and Th17 cells suggest that the two cell types are likely elicited via different mechanisms, and that the γδ T cells provide an early source of IL-17. Finally, the many functions that have been attributed to iNKT cells, as likened to the many functions of a Swiss army knife, are summarized in a sixth review by Laurent Gapin et al. This comprehensive article includes a succinct overview of the characteristics of iNKT cells, and outlines new findings concerning their development [e.g. [7]}. Plausible mechanisms for how a given cell type could have so many different functions are also put forth.In addition to the rol...

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T-bet concomitantly controls migration, survival, and effector functions during the development of Vα14i NKT cells

Cited by 132 publications

References 53 publications

CD1d-restricted iNKT cells, the ‘Swiss-Army knife’ of the immune system

CD1d-restricted iNKT cells, the ‘Swiss-Army knife’ of the immune system

Temporal Dissection of T-bet Functions

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