Tim-3 Pathway Controls Regulatory and Effector T Cell Balance during Hepatitis C Virus Infection

Moorman, Jonathan P.; Wang, Jia M.; Zhang, Ying; Xiao, Ji; Cheng, Jun; Wu, Xiao Y.; Jia, Zhan S.; Wang, Ke S.; Yao, Zhi Q.

doi:10.4049/jimmunol.1200162

Cited by 90 publications

(103 citation statements)

References 50 publications

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“…Then, Tim-3 expression is significantly upregulated on iTreg cells and deliver a negative signal tempering Treg expansion and function: blocking Tim-3/Gal-9 ligation further increased the expansion and TGF-β/IL-10 production by Treg cells in the presence of Gal-9 + HCV + Huh-7 cells. These data are consistent with previous evidence showing that both Tim-3 and PD-1, together with the simultaneous TCR/MHC-peptide interaction, negatively regulate the expansion and suppressive function of Treg cells by controlling STAT-5 phosphorylation, at the site of inflammation in chronic HCV infection [17,18]. Therefore, Tim-3, as well as PD-1 [16,17], seem to act as a double-edged sword with the effect dependent on the phase of T cell activation: both Tim-3 and PD-1 can contribute to Treg-cell conversion from naïve Tconv cells, i.e.…”

supporting

confidence: 92%

Induction, control, and plasticity of Treg cells: The immune regulatory network revised?

Barnaba

Schinzari

2013

Eur J Immunol

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The revival of the old and, for several years, abandoned era of suppressor T cells came in the 1990s with two works that resurrected the idea of CD8 + suppressor T cells [1,2]. The revival was further strengthened when a subset of CD4 + T cells constitutively expressing high levels of the IL-2R α-chain (CD25) and possessing suppressor activity was identified [3]. These cells, termed regulatory T (Treg) cells, were able to prevent disease in various models of autoimmunity, and to suppress transplant rejection and tumor immunity (as reviewed in [5,6]). The presence in the thymus of a subset of CD4 + CD25 + thymocytes that displayed suppressor activity indicated that Treg-cell development occurs in this organ (reviewed in [6]). However, the undisputed confirmation of the existence of Treg cells relates to the discovery that the genetic defect causing IPEX (immune dysregulation, polyendocrinopathy, enteropathy, X-linked syndrome, also known as XLAAD (X-linked autoimmunity-allergic dysregulation syndrome)) in humans or Correspondence: Dr. Vincenzo Barnaba e-mail: vincenzo.barnaba@uniroma1.it the equivalent condition in mice (Scurfy mice) is due to mutations in the gene encoding the Foxp3 transcription factor, which is typically expressed in CD4 + CD25 high Treg cells (reviewed in [5,6]).The fundamental milestones that have supported the correlation between Foxp3 and the Treg-cell lineage are based on discoveries ascertaining that: (i) Foxp3 is absolutely required in Tregcell differentiation in the thymus, as indicated by the analysis of Foxp3-deficient mice and bone-marrow transfer studies; (ii) retroviral transfer of the Foxp3 gene into naïve T cells conferring suppressor activity and a Treg-cell phenotype; (iii) sustained Foxp3 expression in mature Treg cells being necessary to maintain the Treg-cell phenotype and function and preventing the cells trans-differentiating into different types of effector T cells; and (iv) the lack of Treg cells being the cause of fatal autoimmunity arising from Foxp3 deficiency in several experimental models (reviewed in [5,6]). In addition, the finding that some CD4 + T cells with either low CD25 levels or lacking CD25 (i.e., conventional T (Tconv) cells) can also express Foxp3 and display potent suppressor activity (reviewed in [6]) not only supported the key role of Foxp3 in Treg-cell differentiation but also suggested a dichotomy [7][8][9]. It has been proposed that demethylated TSDR is accessible to various transcription factors (CREB, activating transcription factor, etc.), and that it can hence act as an enhancer of the Foxp3 promoter, ultimately increasing the Foxp3 stabilization [7][8][9]. By contrast, TSDR is partially methylated in iTreg cells and this is associated with unstable Foxp3 expression and with the potentiality to convert into different effector T cell types, a process referred to as plasticity [7][8][9][10]. Indeed, under particular conditions in vitro (i.e., by using azacytidine inhibiting DNA methylation), iTreg cells can ultimately differentiate into fully ...

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supporting

confidence: 92%

Induction, control, and plasticity of Treg cells: The immune regulatory network revised?

Barnaba

Schinzari

2013

Eur J Immunol

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“…These results are in agreement with our previous observations that another negative signaling molecule, T cell immunoglobulin and mucin domain protein 3 (Tim-3), is upregulated on NK cells to dampen their functions, with inhibited activation (CD69), proliferation (Ki69), degranulation (CD107a), and killing activity (granzyme B) following HCV infection (data not shown). This in turn interplays with monocytes and T cells (including Th17 and Foxp3 ϩ Tregs) in immune dysregulation that contribute to viral persistence (42)(43)(48)(49). This also supports the notion that HCV may utilize KLRG1-an intrinsic mercenary of cell feedback regulation-for the purpose of virus persistence and thus facilitate chronic infection.…”

Section: Discussionsupporting

confidence: 65%

KLRG1 Negatively Regulates Natural Killer Cell Functions through the Akt Pathway in Individuals with Chronic Hepatitis C Virus Infection

Wang

Cheng

Shi

et al. 2013

J Virol

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In this study, we demonstrate that killer cell lectin-like receptor subfamily G member 1 (KLRG1), a transmembrane protein preferentially expressed on T cells, is highly expressed on CD56 ؉ NK cells, which are significantly reduced in their numbers and functions in the peripheral blood of patients with chronic hepatitis C virus (HCV) infection compared to subjects without infection. KLRG1 expression is also upregulated on healthy NK cells exposed to Huh-7 hepatocytes infected with HCV in vitro. Importantly, the expression levels of KLRG1 are inversely associated with the capacity of NK cells to proliferate and to produce gamma interferon (IFN-␥) but positively associated with apoptosis of NK cells in response to inflammatory cytokine stimulation. KLRG1؉ NK cells, including CD56 bright and CD56 dim subsets, exhibit impaired cell activation and IFN-␥ production but increased apoptosis compared to KLRG1؊ NK cells, particularly in HCV-infected individuals. Importantly, blockade of KLRG1 signaling significantly recovered the impaired IFN-␥ production by NK cells from HCV-infected subjects. Blockade of KLRG1 also enhanced the impaired phosphorylation of Akt (Ser473) in NK cells from HCV-infected subjects. Taken together, these results indicate that KLRG1 negatively regulates NK cell numbers and functions via the Akt pathway, thus providing a novel marker and therapeutic target for HCV infection.

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“…TIM-3 binds to its ligand galectin-9, which is expressed on KCs and other myeloid cells, and negatively regulates T-cell response [9]. HCVinfected hepatocytes also express galectin-9 and induce CD4 + CD25 + FOXP3 + Treg infiltration in the diseased liver [45]. Li et al showed that TIM-3 expression is increased in the T lymphocytes infiltrating in HCC [9].…”

Section: Tim-3mentioning

confidence: 99%

Rationally Combining Anti-VEGF Therapy with Checkpoint Inhibitors in Hepatocellular Carcinoma

2016

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Hepatocellular carcinoma (HCC) is a fatal disease with rising incidence in the world. For advanced HCC, sorafenib, a multikinase inhibitor, is the only systemic therapy with proven survival benefits. Sorafenib is a pan-VEGF receptor inhibitor, and thus many studies have focused its antivascular effects. But VEGF also acts as an immunosuppressive molecule. VEGF can inhibit maturation of dendritic cells, promote immune suppressive cell infiltration and enhance immune checkpoint molecules expression. On the other hand, potent VEGF inhibition may increase tumor hypoxia, which could hinder antitumor immunity or immunotherapy. Thus, achieving synergy when combining anti-VEGF therapy with immunotherapy may require proper polarization of the tumor microenvironment by dose titration or combination with other immunomodulating agents.

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Tim-3 Pathway Controls Regulatory and Effector T Cell Balance during Hepatitis C Virus Infection

Cited by 90 publications

References 50 publications

Induction, control, and plasticity of Treg cells: The immune regulatory network revised?

Induction, control, and plasticity of Treg cells: The immune regulatory network revised?

KLRG1 Negatively Regulates Natural Killer Cell Functions through the Akt Pathway in Individuals with Chronic Hepatitis C Virus Infection

Rationally Combining Anti-VEGF Therapy with Checkpoint Inhibitors in Hepatocellular Carcinoma

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