Peter T. Sage scite author profile

SummaryRegulatory T cells (Tregs) and the PD-1: PD-ligand (PD-L) pathway are both critical to terminating immune responses. Elimination of either can result in the breakdown of tolerance and the development of autoimmunity. The PD-1: PD-L pathway can thwart self-reactive T cells and protect against autoimmunity in many ways. In this review, we highlight how PD-1 and its ligands defend against potentially pathogenic self-reactive effector T cells by simultaneously harnessing two mechanisms of peripheral tolerance: (i) the promotion of Treg development and function and (ii) the direct inhibition of potentially pathogenic self-reactive T cells that have escaped into the periphery. Treg cells induced by the PD-1 pathway may also assist in maintaining immune homeostasis, keeping the threshold for T-cell activation high enough to safeguard against autoimmunity. PD-L1 expression on non-hematopoietic cells as well as hematopoietic cells endows PD-L1 with the capacity to promote Treg development and enhance Treg function in lymphoid organs and tissues that are targets of autoimmune attack. At sites where transforming growth factor-β is present (e.g. sites of immune privilege or inflammation), PD-L1 may promote the de novo generation of Tregs. When considering the consequences of uncontrolled immunity, it would be therapeutically advantageous to manipulate Treg development and sustain Treg function. Thus, this review also discusses how the PD-1 pathway regulates a number of autoimmune diseases and the therapeutic potential of PD-1: PD-L modulation.

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Transcellular Diapedesis Is Initiated by Invasive Podosomes

Carman

et al. 2007

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Diapedesis is critical for immune system function and inflammatory responses. This occurs by migration of blood leukocytes either directly through individual microvascular endothelial cells (the "transcellular" route) or between them (the "paracellular" route). Mechanisms for transcellular pore formation in endothelium remain unknown. Here we demonstrate that lymphocytes used podosomes and extended "invasive podosomes" to palpate the surface of, and ultimately form transcellular pores through, the endothelium. In lymphocytes, these structures were dependent on Src kinase and the actin regulatory protein WASP; inhibition of podosome formation selectively blocked the transcellular route of diapedesis. In endothelium, membrane fusion events dependent on the SNARE-containing membrane fusion complex and intracellular calcium were required for efficient transcellular pore formation in response to podosomes. These findings provide insights into basic mechanisms for leukocyte trafficking and the functions of podosomes.

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The receptor PD-1 controls follicular regulatory T cells in the lymph nodes and blood

et al. 2012

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Newly defined CD4+CXCR5+FoxP3+ T Follicular Regulatory (TFR) cells inhibit CD4+CXCR5+FoxP3− T Follicular Helper (TFH)-mediated humoral immunity. Although PD-1 is expressed by both cell types, the role of this inhibitory receptor on TFR differentiation is unknown. Here we show that PD-1/PD-L1 deficient mice have increased lymph node TFR cells, which have enhanced suppressive capacity. We also find substantial populations of TFR cells in mouse blood, and demonstrate that blood TFR cells home to lymph nodes and potently inhibit TFH cells in vivo. Blood TFR cells require CD28 and ICOS signaling, but are inhibited by PD-1/PD-L1. These findings reveal novel mechanisms by which the PD-1 pathway regulates antibody production and helps to reconcile inconsistencies surrounding the role of this pathway in humoral immunity.

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The Coinhibitory Receptor CTLA-4 Controls B Cell Responses by Modulating T Follicular Helper, T Follicular Regulatory, and T Regulatory Cells

et al. 2014

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Summary The receptor CTLA-4 has been implicated in controlling B cell responses, but the mechanisms by which CTLA-4 regulates antibody production are not known. Here we showed deletion of CTLA-4 in adult mice increased Tfh and Tfr cell numbers, and augmented B cell responses. In the effector phase, loss of CTLA-4 on Tfh cells resulted in heightened B cell responses, whereas loss of CTLA-4 on Tfr cells resulted in defective suppression of antigen-specific antibody responses. We also found that non-Tfr Treg cells could suppress B cells responses through CTLA-4, and that Treg and/or Tfr cells may downregulate B7-2 on B cells outside germinal centers as a means of suppression. Within the germinal center, however, Tfr cells potently suppress B cells through CTLA-4, but with a mechanism independent of altering B7-1 or B7-2. Thus, we identify multifaceted regulatory roles for CTLA-4 in Tfh, Tfr and Treg cells, which together control humoral immunity.

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Control of PI(3) kinase in Treg cells maintains homeostasis and lineage stability

et al. 2015

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Foxp3+ regulatory T cells (Tregs) are required for immune homeostasis. One notable distinction between conventional T cells (Tconv) and Tregs is differential phosphatidylinositol 3-kinase (PI3K) activity: only Tconv downregulate PTEN, the primary negative regulator of PI3K, upon activation. Here, we show that control of PI3K in Tregs is essential for lineage homeostasis and stability. Mice lacking Pten in Tregs developed an autoimmune-lymphoproliferative disease characterized by excessive TH1 responses and B cell activation. Diminished control of PI3K activity in Tregs led to reduced CD25 expression, accumulation of Foxp3+CD25− cells and ultimately, loss of Foxp3 expression in these cells. Collectively, these data demonstrate that control of PI3K signaling by PTEN in Tregs is critical to maintain their homeostasis, function and stability.

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Circulating T follicular regulatory and helper cells have memory-like properties

Sage¹,

Álvarez²,

Godec³

et al. 2014

J. Clin. Invest.

216

366

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T follicular regulatory cells in the regulation of B cell responses

Sage

Sharpe

2015

Trends in Immunology

237

254

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High affinity antibodies result from interactions between B cells and T follicular helper (Tfh) cells in germinal centers (GCs). Recent studies have identified an effector subset of T regulatory cells termed T follicular regulatory (Tfr) cells that specifically controls GC responses by suppressing Tfh and B cells. The discovery of Tfr cells has shed new light on pathways regulating humoral immunity that enable potent and specific responses to pathogens while restricting autoimmunity. Here, we review the current understanding of the cellular and molecular mechanisms underlying the differentiation and function of Tfr cells. In this context we discuss recent insights into the role of Tfh cells in disease, how this knowledge may be translated therapeutically, and important areas of further research.

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Mitochondrial Biogenesis and Proteome Remodeling Promote One-Carbon Metabolism for T Cell Activation

et al. 2016

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Summary Naïve T cell stimulation activates anabolic metabolism to fuel the transition from quiescence to growth and proliferation. Here we show that naïve CD4+ T cell activation induces a unique program of mitochondrial biogenesis and remodeling. Using mass spectrometry, we quantified protein dynamics during T cell activation. We identified substantial remodeling of the mitochondrial proteome over the first 24 hr of T cell activation to generate mitochondria with a distinct metabolic signature, with one carbon metabolism as the most induced pathway. Salvage pathways and mitochondrial one carbon metabolism, fed by serine, contribute to purine and thymidine synthesis to enable T cell proliferation and survival. Genetic inhibition of the mitochondrial serine catabolic enzyme SHMT2 impaired T cell survival in culture, and antigen-specific T cell abundance in vivo. Thus, during T cell activation, mitochondrial proteome remodeling generates specialized mitochondria with enhanced one carbon metabolism that is critical for T cell activation and survival.

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Peter T. Sage

The PD‐1 pathway in tolerance and autoimmunity

Transcellular Diapedesis Is Initiated by Invasive Podosomes

The receptor PD-1 controls follicular regulatory T cells in the lymph nodes and blood

The Coinhibitory Receptor CTLA-4 Controls B Cell Responses by Modulating T Follicular Helper, T Follicular Regulatory, and T Regulatory Cells

Control of PI(3) kinase in Treg cells maintains homeostasis and lineage stability

Circulating T follicular regulatory and helper cells have memory-like properties

T follicular regulatory cells in the regulation of B cell responses

Mitochondrial Biogenesis and Proteome Remodeling Promote One-Carbon Metabolism for T Cell Activation

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