Tomohiro Arikawa

Galectin-9 suppresses the generation of Th17, promotes the induction of regulatory T cells, and regulates experimental autoimmune arthritis

The effects of galectin-9 on a mouse collagen-induced arthritis (CIA) model were assessed to clarify whether galectin-9 suppresses CIA by regulating T cell immune responses. Galectin-9 suppressed CIA in a dose-dependent manner, and such suppression was observed even when treatment was started on 7 days after the booster, indicating its preventive and therapeutic effects. Galectin-9 induced the decreased levels of pro-inflammatory cytokines, IL-17, IL-12, and IFNgamma in the joint. Galectin-9 induced the decreased number of CD4(+) TIM-3(+) T cells in peripheral blood. Galectin-9-deficient mice became susceptible to CIA may be by increased number of CD4(+) TIM-3(+) T cells and decreased number of Treg cells. We further found that galectin-9 induces differentiation of naive T cells to Treg cells, and it suppresses differentiation to Th17 cells in vitro. The present results suggested that galectin-9 ameliorates CIA by suppressing the generation of Th17, promoting the induction of regulatory T cells.

Galectin-9 increases Tim-3+ dendritic cells and CD8+ T cells and enhances antitumor immunity via galectin-9-Tim-3 interactions.

A Tim-3 ligand, galectin-9 (Gal-9), modulates various functions of innate and adaptive immune responses. In this study, we demonstrate that Gal-9 prolongs the survival of Meth-A tumor-bearing mice in a dose- and time-dependent manner. Although Gal-9 did not prolong the survival of tumor-bearing nude mice, transfer of naive spleen cells restored a prolonged Gal-9-induced survival in nude mice, indicating possible involvement of T cell-mediated immune responses in Gal-9-mediated antitumor activity. Gal-9 administration increased the number of IFN-γ-producing Tim-3+ CD8+ T cells with enhanced granzyme B and perforin expression, although it induced CD4+ T cell apoptosis. It simultaneously increased the number of Tim-3+CD86+ mature dendritic cells (DCs) in vivo and in vitro. Coculture of CD8+ T cells with DCs from Gal-9-treated mice increased the number of IFN-γ producing cells and IFN-γ production. Depletion of Tim-3+ DCs from DCs of Gal-9-treated tumor-bearing mice decreased the number of IFN-γ-producing CD8+ T cells. Such DC activity was significantly abrogated by Tim-3-Ig, suggesting that Gal-9 potentiates CD8+ T cell-mediated antitumor immunity via Gal-9-Tim-3 interactions between DCs and CD8+ T cells.

A Crucial Role for Kupffer Cell-Derived Galectin-9 in Regulation of T Cell Immunity in Hepatitis C Infection

Approximately 200 million people throughout the world are infected with hepatitis C virus (HCV). One of the most striking features of HCV infection is its high propensity to establish persistence (∼70–80%) and progressive liver injury. Galectins are evolutionarily conserved glycan-binding proteins with diverse roles in innate and adaptive immune responses. Here, we demonstrate that galectin-9, the natural ligand for the T cell immunoglobulin domain and mucin domain protein 3 (Tim-3), circulates at very high levels in the serum and its hepatic expression (particularly on Kupffer cells) is significantly increased in patients with chronic HCV as compared to normal controls. Galectin-9 production from monocytes and macrophages is induced by IFN-γ, which has been shown to be elevated in chronic HCV infection. In turn, galectin-9 induces pro-inflammatory cytokines in liver-derived and peripheral mononuclear cells; galectin-9 also induces anti-inflammatory cytokines from peripheral but not hepatic mononuclear cells. Galectin-9 results in expansion of CD4+CD25+FoxP3+CD127low regulatory T cells, contraction of CD4+ effector T cells, and apoptosis of HCV-specific CTLs. In conclusion, galectin-9 production by Kupffer cells links the innate and adaptive immune response, providing a potential novel immunotherapeutic target in this common viral infection.

Galectin-9 suppresses Th17 cell development in an IL-2-dependent but Tim-3-independent manner

Galectin-9 (Gal-9) ameliorates autoimmune reactions by suppressing Th17 cells while augmenting Foxp3(+) regulatory T cells (Tregs). However, the exact mechanism of Gal-9-mediated immune modulation has been elusive. In a MOG-induced experimental allergic encephalomyelitis model using Gal-9(-/-) mice, we observed exacerbated inflammation and an increase in IL-17-producing Th17 cells balanced by a decrease in Foxp3+ Tregs. During in vitro Th17 skewing using TGF-β1 and IL-6, exogenous Gal-9 suppressed Th17 cell development and expanded Foxp3(+) Tregs from naïve CD4 T cells in an IL-2-dependent manner. Although Gal-9 induced cell death in Tim3-expressing differentiated Th17 cells, Gal-9 suppressed Th17 development in a Tim-3-independent. Benzyl-α-GalNAc (an O-glycan biosynthesis inhibitor), but not swainsonine (a complex-type N-glycan biosynthesis inhibitor) abrogated Gal-9-mediated inhibition of Th17 development indicating that there is a linkage between Gal-9 and an unidentified glycoprotein(s) with O-linked β-galactosides that suppress Th17 development.

Cell Surface Galectin-9 Expressing Th Cells Regulate Th17 and Foxp3+ Treg Development by Galectin-9 Secretion

Galectin-9 (Gal-9), a β-galactoside binding mammalian lectin, regulates immune responses by reducing pro-inflammatory IL-17-producing Th cells (Th17) and increasing anti-inflammatory Foxp3+ regulatory T cells (Treg) in vitro and in vivo. These functions of Gal-9 are thought to be exerted by binding to receptor molecules on the cell surface. However, Gal-9 lacks a signal peptide for secretion and is predominantly located in the cytoplasm, which raises questions regarding how and which cells secrete Gal-9 in vivo. Since Gal-9 expression does not necessarily correlate with its secretion, Gal-9-secreting cells in vivo have been elusive. We report here that CD4 T cells expressing Gal-9 on the cell surface (Gal-9+ Th cells) secrete Gal-9 upon T cell receptor (TCR) stimulation, but other CD4 T cells do not, although they express an equivalent amount of intracellular Gal-9. Gal-9+ Th cells expressed interleukin (IL)-10 and transforming growth factor (TGF)-β but did not express Foxp3. In a co-culture experiment, Gal-9+ Th cells regulated Th17/Treg development in a manner similar to that by exogenous Gal-9, during which the regulation by Gal-9+ Th cells was shown to be sensitive to a Gal-9 antagonist but insensitive to IL-10 and TGF-β blockades. Further elucidation of Gal-9+ Th cells in humans indicates a conserved role of these cells through evolution and implies the possible utility of these cells for diagnosis or treatment of immunological diseases.

Galectin-9 expands immunosuppressive macrophages to ameliorate T-cell-mediated lung inflammation.

Galectin‐9 (Gal‐9) plays pivotal roles in the modulation of innate and adaptive immunity to suppress T‐cell‐mediated autoimmune models. However, it remains unclear if Gal‐9 plays a suppressive role for T‐cell function in non‐autoimmune disease models. We assessed the effects of Gal‐9 on experimental hypersensitivity pneumonitis induced by Trichosporon asahii. When Gal‐9 was given subcutaneously to C57BL/6 mice at the time of challenge with T. asahii, it significantly suppressed T. asahii‐induced lung inflammation, as the levels of IL‐1, IL‐6, IFN‐γ, and IL‐17 were significantly reduced in the BALF of Gal‐9‐treated mice. Moreover, co‐culture of anti‐CD3‐stimulated CD4 T cells with BALF cells harvested from Gal‐9‐treated mice on day 1 resulted in diminished CD4 T‐cell proliferation and decreased levels of IFN‐γ and IL‐17. CD11b+Ly‐6ChighF4/80+ BALF Mϕ expanded by Gal‐9 were responsible for the suppression. We further found in vitro that Gal‐9, only in the presence of T. asahii, expands CD11b+Ly‐6ChighF4/80+ cells from BM cells, and the cells suppress T‐cell proliferation and IFN‐γ and IL‐17 production. The present results indicate that Gal‐9 expands immunosuppressive CD11b+Ly‐6Chigh Mϕ to ameliorate Th1/Th17 cell‐mediated hypersensitivity pneumonitis.

Galectin-9 expression links to malignant potential of cervical squamous cell carcinoma

PurposeGalectin-9 (Gal-9) induces adhesion and aggregation of certain cell types and can be a prognostic factor in the patients with melanoma and breast cancer. We assessed the experiments to resolve whether Gal-9 expression in cervical neoplasm links to malignant potential of cervical squamous cell carcinoma (SCC) cells.MethodsGal-9 expression was examined with immunohistochemical techniques in 23 normal cervical squamous epithelia, 17 cervical intraepithelial neoplasia (CIN), and 38 cervical SCC compared to E-cadherin. CIN was divided into low-grade and high-grade squamous intraepithelial lesions (8 LSIL and 9 HSIL), and SCC was into well-, moderately and poorly differentiated SCC (6 WSCC, 20 MSCC and 12 PSCC).ResultsGal-9 and E-cadherin were evidently detected in normal epithelium and endocervical glands, but those in CIN and SCC were significantly faint. Moreover, both the Gal-9 and E-cadherin expressions in HSIL were significant lower than those in LSIL, suggesting their association with malignant transformation. Unexpectedly, Gal-9 and E-cadherin in WSCC were significantly high compared to those in HSIL. Furthermore, those in SCC were inversely correlated with the grade of differentiation (WSCC >> MSCC >> PSCC), implying the possible involvement of Gal-9 and E-cadherin in the differentiation of SCC. In contrast, they were not different among the FIGO stage. Gal-9 expression was well correlated with E-cadherin expression in CIN and SCC but not in normal cervical epithelia.ConclusionThe present results suggest that decreased Gal-9 expression is inversely associated with malignant potential or differentiation of cervical CIN and SCC as a differentiation biomarker.

Galectin-9 expands unique macrophages exhibiting plasmacytoid dendritic cell-like phenotypes that activate NK cells in tumor-bearing mice

Galectin-9 (Gal-9) inhibits the metastasis of tumor cells by blocking their adhesion to endothelium and the extracellular matrix. In this study, we addressed the involvement of Gal-9 in anti-tumor activity. Gal-9 significantly prolonged the survival of B16F10 melanoma-bearing mice. Gal-9 increased the numbers of NK cells, CD8 T cells and macrophages in tumor-bearing mice. Gal-9-mediated anti-tumor activity was not induced in NK cell-, macrophage- and CD8 T cell-depleted mice. NK cells from Gal-9-treated mice, compared to PBS-treated mice, exhibited significantly higher cytolytic activity. Co-culture of naïve NK cells with macrophages from Gal-9-treated mice resulted in enhanced NK activity, although Gal-9 itself did not enhance the NK activity. We also found that Ly-6C(+)CD11b(+)F4/80(+) macrophages with plasmacytoid cell (pDC)-like phenotypes (PDCA-1 and B220) were responsible for the enhanced NK activity. These results provide evidence that Gal-9 promotes NK cell-mediated anti-tumor activity by expanding unique macrophages with a pDC-like phenotype.

Galectin-9 ameliorates immune complex-induced arthritis by regulating FcγR expression on macrophages

Galectin-9 up-regulated Fc gamma RIIb expression of mouse peritoneal macrophages in vitro but down-regulated Fc gamma RIII expression. Galectin-9-treated macrophages stimulated with immune complexes (IC) produced less TNFalpha and IL-1 beta but more IL-10 than PBS-treated macrophages. Macrophage enhancing effects on IC-induced C5a and neutrophil chemotactic activity were also diminished for galectin-9-treated macrophages. In galectin-9-treated mice, the severity of IC-induced arthritis was reduced, as were pro-inflammatory cytokine levels in inflamed joints and serum C5a. Fc gamma RIIb expression of macrophages from galectin-9-treated mice was up-regulated, whereas Fc gamma RIII expression was down-regulated. Macrophages from galectin-9-treated mice produced less TNFalpha and IL-1 beta but more IL-10 than PBS-treated mice. Disease severity of galectin-9-transgenic mice was milder than wild-type mice, whereas that of galectin-9-deficient mice was exaggerated. Furthermore, macrophage Fc gamma RIIb expression in galectin-9-deficient mice was down-regulated, while Fc gamma RIII expression was up-regulated. These results suggest that galectin-9 suppresses IC-induced inflammation partly by regulating Fc gamma R expression on macrophages.

Dysregulation of TIM-3–Galectin-9 Pathway in the Cystic Fibrosis Airways

The T-cell Ig and mucin domain-containing molecules (TIMs) have emerged as promising therapeutic targets to correct abnormal immune function in several autoimmune and chronic inflammatory conditions. It has been reported that proinflammatory cytokine dysregulation and neutrophil-dominated inflammation are the main causes of morbidity in cystic fibrosis (CF). However, the role of TIM receptors in CF has not been investigated. In this study, we demonstrated that TIM-3 is constitutively overexpressed in the human CF airway, suggesting a link between CF transmembrane conductance regulator (CFTR) function and TIM-3 expression. Blockade of CFTR function with the CFTR inhibitor-172 induced an upregulation of TIM-3 and its ligand galectin-9 in normal bronchial epithelial cells. We also established that TIM-3 serves as a functional receptor in bronchial epithelial cells, and physiologically relevant concentrations of galectin-9 induced TIM-3 phosphorylation, resulting in increased IL-8 production. In addition, we have demonstrated that both TIM-3 and galectin-9 undergo rapid proteolytic degradation in the CF lung, primarily because of neutrophil elastase and proteinase-3 activity. Our results suggest a novel intrinsic defect that may contribute to the neutrophil-dominated immune response in the CF airways.