Parinaz Aliahmad scite author profile

CD8+ cytotoxic and CD4+ helper/inducer T cells develop from common thymocyte precursors that express both CD4 and CD8 molecules. Upon T cell receptor signaling, these cells initiate a differentiation program that includes complex changes in CD4 and CD8 expression, allowing identification of transitional intermediates in this developmental pathway. Little is known about regulation of these early transitions or their specific importance to CD4 and CD8 T cell development. Here, we show a severe block at the CD4loCD8lo transitional stage of positive selection caused by loss of the nuclear HMG box protein TOX. As a result, CD4 lineage T cells, including regulatory T and CD1d-dependent natural killer T cells, fail to develop. In contrast, functional CD8+ T cells develop in TOX-deficient mice. Our data suggest that TOX-dependent transition to the CD4+CD8lo stage is required for continued development of class II major histocompatibility complex–specific T cells, regardless of ultimate lineage fate.

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Shared dependence on the DNA-binding factor TOX for the development of lymphoid tissue–inducer cell and NK cell lineages

Aliahmad

2010

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Thymocyte selection-associated HMG box factor (TOX) is a DNA-binding factor required for development of CD4 T cells, natural killer T cells, and T regulatory cells. Here we document that both NK cell development and lymphoid tissue organogenesis are inhibited in the absence of TOX. We find that development of lymphoid tissue inducer cells, a rare subset of specialized cells that plays an integral role in lymphoid tissue organogenesis, requires TOX. Tox is highly upregulated in immature NK cells in the bone marrow, consistent with the loss of mature NK cells in the absence of this nuclear protein. Thus, multiple cell lineages in the immune system share a TOX-dependent step for development.

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The development of innate lymphoid cells requires TOX-dependent generation of a common innate lymphoid cell progenitor

et al. 2015

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Diverse innate lymphoid cell (ILC) subtypes have been defined, based on effector function and transcription factor expression. ILCs derive from common lymphoid progenitors, although the transcriptional pathways leading to ILC lineage specification remain poorly characterized. Here we demonstrate that transcriptional regulator TOX is required for the in vivo differentiation of common lymphoid progenitors to ILC lineage-restricted cells. In vitro modeling demonstrates that TOX deficiency results in early defects in progenitor cell survival or expansion as well as later stage ILC differentiation. In addition, comparative transcriptome analysis of bone marrow progenitors reveals that TOX-deficient cells fail to upregulate many aspects of the ILC gene program, including Notch gene targets, implicating TOX as a key determinant of early ILC lineage specification.

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TOX Provides a Link Between Calcineurin Activation and CD8 Lineage Commitment

Aliahmad

O'Flaherty

Han

et al. 2004

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T cell development is dependent on the integration of multiple signaling pathways, although few links between signaling cascades and downstream nuclear factors that play a role in thymocyte differentiation have been identified. We show here that expression of the HMG box protein TOX is sufficient to induce changes in coreceptor gene expression associated with β-selection, including CD8 gene demethylation. TOX expression is also sufficient to initiate positive selection to the CD8 lineage in the absence of MHC–TCR interactions. TOX-mediated positive selection is associated with up-regulation of Runx3, implicating CD4 silencing in the process. Interestingly, a strong T cell receptor–mediated signal can modify this cell fate. We further demonstrate that up-regulation of TOX in double positive thymocytes is calcineurin dependent, linking this critical signaling pathway to nuclear changes during positive selection.

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The many roles of TOX in the immune system

Aliahmad

Seksenyan

Kaye

2012

Current Opinion in Immunology

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TOX is a member of an evolutionarily conserved DNA-binding protein family and is expressed in several immune-relevant cell subsets. Here, we review the key role of TOX in regulating development of CD4 T cells, natural killer cells and lymphoid tissue inducer cells, the latter responsible for the generation of lymph nodes. Although the exact molecular mechanism of action of TOX remains to be elucidated, the role of TOX in establishment of gene programs in the thymus and the potential of TOX as a regulator of E protein activity are discussed.

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