Interleukin-10 Directly Inhibits CD8+ T Cell Function by Enhancing N-Glycan Branching to Decrease Antigen Sensitivity

Smith, Logan K.; Boukhaled, Giselle M.; Condotta, Stephanie A.; Mazouz, Sabrina; Guthmiller, Jenna J.; Vijay, Rahul; Butler, Noah S.; Bruneau, Julie; Shoukry, Naglaa H.; Krawczyk, Connie M.; Richer, Martin J.

doi:10.1016/j.immuni.2018.01.006

Cited by 189 publications

(173 citation statements)

References 56 publications

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“…In the context of influenza infection, however, the role of IL-10 still remains controversial as the genetic background appears to have a dominant effect on disease susceptibility 59,60 . More recently, Smith et al demonstrated that IL-10 can act directly on CD8 + T cells by increasing the antigenic threshold for T cell activation and that this process was highly dependent on the dose and timing of exposure 17 . Since the impact of IL-10 is clearly determined by the timing and site of its production, TIGIT modulation might be used as a surrogate to generate a local immune suppressive environment at sites of tissue inflammation.…”

Section: Discussionmentioning

confidence: 94%

“…Importantly, loss of TIGIT results in hyperproliferative and inflammatory T cell responses and a marked reduction in IL-10 9,14 . IL-10 itself is a key regulator of immune responses during infections, where it plays a two-sided role by both promoting pathogen persistence [17][18][19] as well as limiting excessive Th1 and CD8 + T cell responses that cause immune pathology 20,21 . Incidentally, many chronic or latent human viruses have evolved to encode IL-10 homologs in order to evade immune control 22 .…”

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confidence: 99%

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TIGIT limits immune pathology during viral infections

et al. 2020

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Co-inhibitory pathways have a fundamental function in regulating T cell responses and control the balance between promoting efficient effector functions and restricting immune pathology. The TIGIT pathway has been implicated in promoting T cell dysfunction in chronic viral infection. Importantly, TIGIT signaling is functionally linked to IL-10 expression, which has an effect on both virus control and maintenance of tissue homeostasis. However, whether TIGIT has a function in viral persistence or limiting tissue pathology is unclear. Here we report that TIGIT modulation effectively alters the phenotype and cytokine profile of T cells during influenza and chronic LCMV infection, but does not affect virus control in vivo. Instead, TIGIT has an important effect in limiting immune pathology in peripheral organs by inducing IL-10. Our data therefore identify a function of TIGIT in limiting immune pathology that is independent of viral clearance.

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Section: Discussionmentioning

confidence: 94%

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confidence: 99%

TIGIT limits immune pathology during viral infections

et al. 2020

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“…Though the overall number of CD8+ effector T cells in the brain is not increased, we still observed an increased frequency of Ki67+ CD8+ T cells in the brain after IL-10R blockade, suggesting that this population is still responsive to IL-10-mediated suppression; perhaps through an intrinsic response to IL-10 that limits their proliferative capacity. IL-10 has been shown to be able to directly inhibit proliferation of CD8+ T cells in vitro [14], as well as control the threshold of their response to antigen upon initial activation [68]. Much is still unknown about the direct effects of IL-10 on activated CD8+ T cells that could contribute to their regulation, though these data further suggest that CD8+ effector T cells may be differentially regulated from the CD4+ effector T cell compartment in the brain.…”

Section: Discussionmentioning

confidence: 99%

IL-10 and ICOS differentially regulate T cell responses in the brain during chronicToxoplasma gondiiinfection

OʼBrien

Batista

Still

et al. 2018

Preprint

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25Control of chronic CNS infection with the parasite Toxoplasma gondii requires an ongoing T cell 26 response in the brain. Immunosuppressive cytokines are also important for preventing lethal 27 immunopathology during chronic infection. To explore the loss of suppressive cytokine exclusively 28 during the chronic phase of infection we blocked IL-10 receptor (IL-10R). Blockade was associated with 29 widespread changes in the inflammatory response, including increased antigen presenting cell (APC) 30 activation, expansion of CD4+ T cells, and increased neutrophil recruitment to the brain, consistent with 31 previous reports. We then sought to identify regulatory mechanisms contributing to IL-10 production, 32 focusing on ICOS (inducible T cell costimulator), a molecule that promotes IL-10 production in many 33 systems. Unexpectedly, ICOS-ligand (ICOSL) blockade led to a local expansion of effector T cells in the 34 inflamed brain without affecting IL-10 production or APC activation. Instead, we found that ICOSL 35 blockade led to changes in T cells associated with their proliferation and survival. Specifically, we 36 observed increased expression of IL-2 associated signaling molecules, including CD25, STAT5 37 phosphorylation, Ki67, and Bcl-2 in T cells in the brain. Interestingly, increases in CD25 and Bcl-2 were 38 not observed following IL-10R blockade. Also unlike IL-10R blockade, ICOSL blockade led to an 39 expansion of both CD8+ and CD4+ T cells in the brain, with no expansion of peripheral T cell 40 populations or neutrophil recruitment to the brain Overall, these results suggest that IL-10 and ICOS 41 differentially regulate T cell responses in the brain during chronic T. gondii infection. 42 45 themselves. The importance of a balanced immune response is apparent in models of infection, where 46 inflammation is required for pathogen control and survival, yet amplified immune responses observed 47 after depletion of regulatory T cells or immunosuppressive cytokines often leads to exacerbated tissue 48 pathology and increased mortality [3-8]. One such immunosuppressive cytokine, IL-10, has been broadly 49 studied in the context of both tissue homeostasis and during infection, and has been shown to play a key 50 role in suppressing many aspects of an immune response. Production of IL-10 during immune responses 51 to infection has been attributed to a wide variety of cell types, including T cells, dendritic cells, 52 macrophages, NK cells, and B cells [9]. IL-10 also acts on a wide range of cell types, with one of its main 53 roles being the downregulation of MHC and costimulatory molecules in antigen presenting cells (APCs), 54 thereby preventing their full activation capacity and limiting T cell responses [10-12]. IL-10 also has 55 direct effects on T cells, limiting IFNγ and IL-2 production, as well as T cell proliferation in vitro [13, 56 14]. 57Infection with the eukaryotic parasite Toxoplasma gondii leads to widespread activation of the 58 immune system and systemic inflammation that is required for h...

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“…IL10 is shown to suppress innate and adaptive immune responses, mediate tissue repair, and maintain epithelium integrity [17]. In addition, IL10 can directly dampen the signal transduction of CD8 T cells, thus increasing the threshold required for antigen recognition and activation [18]. Interestingly, polymorphisms that increase IL10 production are associated with elevated GC risk [19][20][21], which is contrary to the hypothesis that IL10 may prevent inflammation-induced disruption of the epithelium.…”

Section: Introductionmentioning

confidence: 94%

Gastric cancer patients display a distinctive population of IFNg+IL10+ double positive CD8 T cells, which persists longer during prolonged activation

Chen¹,

Song

Li³

2019

Experimental Cell Research

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IL10 is generally regarded as a broad-spectrum regulatory cytokine. However, the role of IL10 in CD8 T cells remains controversial. In this study, we investigated the characteristics of endogenous IL10 by CD8 T cells in gastric cancer (GC) patients. Using intracellular staining, we found that in both GC patients and healthy controls, the majority of IL10-expressing CD8 T cells also presented concurrent IFNg expression. Interestingly, the frequency of IFNg + IL10 + CD8 T cells was significantly higher in GC patients than in healthy controls, while the frequency of IFNg + IL10 -CD8 T cells was significantly lower in GC patients than in healthy controls. Compared to the IFNg -IL10 -CD8 T cells, both IFNg + IL10and IFNg + IL10 + CD8 T cells presented significantly higher expression of activation/inhibitory markers. Interestingly, the IFNg + IL10 + cells presented lower PD1 and TIM3 and higher KLRG1 than the IFNg + IL10 -CD8 T cells. Remarkably, the IFNg + IL10 + CD8 T cells, but not the IFNg + IL10 -CD8 T cells, were highly enriched in the CD45RO + CXCR5 + subset. Prolonged activation resulted in significant enrichment of IFNg + IL10 + CD8 T cells over time. Interestingly, compared to the CD45RO + CXCR5 -CD8 T cells, the CD45RO + CXCR5 + CD8 T cells presented stronger proliferation capacity at later stages of stimulation, and higher viability throughout the stimulation process. Overall, our investigation demonstrated that GC patients were enriched with a distinctive population of IFNg + IL10 + double positive CD8 T cells, which resembled T follicular cytotoxic cells and could persist longer during prolonged activation.

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Interleukin-10 Directly Inhibits CD8+ T Cell Function by Enhancing N-Glycan Branching to Decrease Antigen Sensitivity

Cited by 189 publications

References 56 publications

TIGIT limits immune pathology during viral infections

TIGIT limits immune pathology during viral infections

IL-10 and ICOS differentially regulate T cell responses in the brain during chronicToxoplasma gondiiinfection

Gastric cancer patients display a distinctive population of IFNg+IL10+ double positive CD8 T cells, which persists longer during prolonged activation

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