Chong Luo scite author profile

Regulatory T (Treg) cells, characterized by expression of the transcription factor forkhead box P3 (Foxp3), maintain immune homeostasis by suppressing self-destructive immune responses1–4. Foxp3 operates as a late-acting differentiation factor controlling Treg cell homeostasis and function5, whereas the early Treg-cell-lineage commitment is regulated by the Akt kinase and the forkhead box O (Foxo) family of transcription factors6–10. However, whether Foxo proteins act beyond the Treg-cell-commitment stage to control Treg cell homeostasis and function remains largely unexplored. Here we show that Foxo1 is a pivotal regulatorof Treg cell function. Treg cells express high amounts of Foxo1 and display reduced T-cell-receptor-induced Akt activation, Foxo1 phosphorylation and Foxo1 nuclear exclusion. Mice with Treg-cell-specific deletion of Foxo1 develop a fatal inflammatory disorder similar in severity to that seen in Foxp3-deficient mice, but without the loss of Treg cells. Genome-wide analysis of Foxo1 binding sites reveals ~300 Foxo1-bound target genes, including the pro-inflammatory cytokine Ifng, that do not seem to be directly regulated by Foxp3. These findings show that the evolutionarily ancient Akt–Foxo1 signalling module controls a novel genetic program indispensable for Treg cell function.

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Cancer Immunosurveillance by Tissue-Resident Innate Lymphoid Cells and Innate-like T Cells

Dadi

Chhangawala

Whitlock

et al. 2016

Cell

290

308

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Summary Malignancy can be suppressed by the immune system in a process termed immunosurveillance. However, to what extent immunosurveillance occurs in spontaneous cancers and the composition of participating cell types remain obscure. Here we show that cell transformation triggers a tissue-resident lymphocyte response in oncogene-induced murine cancer models. Non-circulating cytotoxic lymphocytes, derived from innate, TCRαβ and TCRγδ lineages, expand in early tumors. Characterized by high expression of NK1.1, CD49a and CD103, these cells share a gene expression signature distinct from those of conventional NK cells, T cells and invariant NKT cells. Generation of these lymphocytes is dependent on the cytokine IL-15, but not the transcription factor Nfil3 that is required for the differentiation of tumor-infiltrating NK cells, and IL-15, but not Nfil3, deficiency results in accelerated tumor growth. These findings reveal a tumor-elicited immunosurveillance mechanism that engages unconventional type 1-like innate lymphoid cells and type 1 innate-like T cells.

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Graded Foxo1 activity in Treg cells differentiates tumour immunity from spontaneous autoimmunity

Luo

Liao

Dadi

et al. 2016

Nature

171

182

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Summary Regulatory T (Treg) cells expressing the transcription factor Foxp3 have a pivotal role in maintaining immunological self-tolerance1-5; yet, excessive Treg cell activities suppress anti-tumor immune responses6-8. Compared to resting phenotype Treg (rTreg) cells in the secondary lymphoid organs, Treg cells in non-lymphoid tissues including solid tumors exhibit an activated Treg (aTreg) cell phenotype9-11. However, aTreg cell function and whether its generation can be manipulated to promote tumor immunity without evoking autoimmunity are largely unexplored. Here we show that the transcription factor Foxo1, previously demonstrated to promote Treg cell suppression of lymphoproliferative diseases12,13, has an unexpected function in inhibiting aTreg cell-mediated immune tolerance. We found that aTreg cells turned over at a slower rate than rTreg cells, but were not locally maintained in tissues. Transcriptome analysis revealed that aTreg cell differentiation was associated with repression of Foxo1-dependent gene transcription, concomitant with reduced Foxo1 expression and enhanced Foxo1 phosphorylation at sites of the Akt kinase. Treg cell-specific expression of an Akt-insensitive Foxo1 mutant prevented downregulation of lymphoid organ homing molecules, and depleted aTreg cells, causing CD8+ T cell-mediated autoimmune diseases. Compared to Treg cells from healthy tissues, tumor-infiltrating Treg cells downregulated Foxo1 target genes more substantially. Expression of the Foxo1 mutant at a lower dose was sufficient to deplete tumor-associated Treg cells, activate effector CD8+ T cells, and inhibit tumor growth without inflicting autoimmunity. Thus, Foxo1 inactivation is essential for the generation of aTreg cells that have a crucial function in suppressing CD8+ T cell responses; and the Foxo signaling pathway in Treg cells can be titrated to preferentially break tumor immune tolerance.

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A rising trend of gastric cardia cancer in Gansu Province of China

Zhou

Zhang²,

Zhang³

et al. 2008

Cancer Letters

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Transcriptional control of regulatory T cell development and function

Luo

2013

Trends in Immunology

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Regulatory T (Treg) cells differentiate from thymocytes or peripheral T cells in response to host and environmental cues, culminating in induction of the transcription factor forkhead box P3 (Foxp3) and the Treg cell-specific epigenome. An intermediate amount of antigen stimulation is required to induce Foxp3 expression by engaging T cell receptor (TCR)-activated [e.g., nuclear factor (NF)-κB] and TCR-inhibited (e.g., Foxo) transcription factors. Furthermore, Treg cell differentiation is associated with attenuated Akt signaling, resulting in enhanced nuclear retention of Foxo1, which is indispensable for Treg cell function. These findings reveal that Treg cell lineage commitment is not only controlled by genetic and epigenetic imprinting, but also modulated by transcriptional programs responding to extracellular signals.

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Chong Luo

Novel Foxo1-dependent transcriptional programs control Treg cell function

Cancer Immunosurveillance by Tissue-Resident Innate Lymphoid Cells and Innate-like T Cells

Graded Foxo1 activity in Treg cells differentiates tumour immunity from spontaneous autoimmunity

A rising trend of gastric cardia cancer in Gansu Province of China

Transcriptional control of regulatory T cell development and function

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