Matthew A. Burchill scite author profile

IL-2 −/− mice develop autoimmunity despite having relatively normal numbers of regulatory T cells (Tregs). In contrast, we demonstrate that IL-2−/− × IL-15−/− and IL-2Rβ−/− mice have a significant decrease in Treg numbers. Ectopic expression of foxp3 in a subset of CD4+ T cells rescued Treg development and prevented autoimmunity in IL-2Rβ−/− mice, suggesting that IL-2Rβ-dependent signals regulate foxp3 expression in Tregs. Subsequent analysis of IL-2Rβ-dependent signal transduction pathways established that the transcription factor STAT5 is necessary and sufficient for Treg development. Specifically, T cell-specific deletion of STAT5 prevented Treg development; conversely, reconstitution of IL-2Rβ−/− mice with bone marrow cells expressing an IL-2Rβ mutant that exclusively activates STAT5 restored Treg development. Finally, STAT5 binds to the promoter of the foxp3 gene suggesting that IL-2Rβ-dependent STAT5 activation promotes Treg differentiation by regulating expression of foxp3.

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Linked T Cell Receptor and Cytokine Signaling Govern the Development of the Regulatory T Cell Repertoire

Burchill

et al. 2008

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Appropriate development of regulatory T (Treg) cells is necessary to prevent autoimmunity. Neonatal mice, unlike adults, lack factors required for Treg cell development. It is unclear what these missing factors are. However, signals emanating from the T cell receptor (TCR), the costimulatory receptor CD28, and the family of gammac-dependent cytokine receptors are required for Treg cell development. Herein we demonstrate that expression of a constitutively active Stat5b transgene (Stat5b-CA) allowed for Treg cell development in neonatal mice and restored Treg cell numbers in Cd28(-/-) mice. Sequence analysis of TCR genes in Stat5b-CA Treg cells indicated that ectopic STAT5 activation resulted in a TCR repertoire that more closely resembled that of naive T cells. Using MHCII tetramers to identify antigen-specific T cells, we showed that STAT5 signals diverted thymocytes normally destined to become naive T cells into the Treg cell lineage. Our data support a two-step model of Treg cell differentiation in which TCR and CD28 signals induce cytokine responsiveness and STAT5-inducing cytokines then complete the program of Treg cell differentiation.

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Virtual memory T cells develop and mediate bystander protective immunity in an IL-15-dependent manner

et al. 2016

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Virtual memory cells (VM) are an antigen-specific, memory phenotype CD8 T-cell subset found in lymphoreplete, unchallenged mice. Previous studies indicated that VM cells were the result of homeostatic proliferation (HP) resembling the proliferation observed in a lymphopenic environment. Here we demonstrate that HP is ongoing in lymphoreplete mice, the degree of which is dictated by the number of naive CD8 T cells with a sufficiently high affinity for self-antigen interacting with peripheral IL-15. VM cell transcriptional profiles suggest a capacity to mediate protective immunity via antigen non-specific bystander killing, a function we show is dependent on IL-15. Finally, we show a VM-like population of human cells that accumulate with age and traffic to the liver, displaying phenotypic and functional attributes consistent with the bystander protective functions of VM cells identified in the mouse. These data identify developmental and functional attributes of VM cells, including their likely role in protective immunity.

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Antigen capture and archiving by lymphatic endothelial cells following vaccination or viral infection

2014

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Antigen derived from viral infections with influenza and Vesicular Stomatitis Virus (VSV) can persist after resolution of infection. Here we show that antigen can similarly persist for weeks following viral challenge and vaccination. Antigen is captured by Lymphatic Endothelial Cells (LECs), under conditions that induce LEC proliferation. Consistent with published data showing that viral antigen persistence impacts on the function of circulating memory T cells, we find that vaccine elicited antigen persistence, found on LECs, positively influences the degree of protective immunity elicited by circulating memory CD8+ T cells. The coupling of LEC proliferation and antigen capture identifies a mechanism by which the LECs store, or “archive”, antigens for extended periods of time after antigen challenge, thereby increasing IFNγ/IL-2 production and enhancing protection against infection. These findings therefore have the potential to impact future vaccination strategies and our understanding of the role for persisting antigen in both vaccine and infectious settings.

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