Mizuki Tomihari scite author profile

Gpnmb is a glycosylated transmembrane protein implicated in development of glaucoma in mice and melanoma in humans. It shares significant amino acid sequence homology with the melanosome protein Pmel-17. Its extracellular domain contains a RGD motif for binding to integrin and its intracellular domain has a putative endosomal and/or melanosomal-sorting motif. These features led us to posit that Gpnmb is associated with melanosomes and involved in cell adhesion. We showed that human Gpnmb is expressed constitutively by melanoma cell lines, primary-cultured melanocytes, and epidermal melanocytes in situ, with most of it found intracellularly within melanosomes and to a lesser degree in lysosomes. Our newly developed monoclonal antibody revealed surface expression of Gpnmb on these pigment cells, albeit to a lesser degree than the intracellular fraction. Gpnmb expression was upregulated by UVA (but not UVB) irradiation and by α-MSH (but not β-MSH); its cell surface expression on melanocytes (but not on melanoma cells) was increased markedly by IFN-γ and TNF-α. PAM212 keratinocytes adhered to immobilized Gpnmb in a RGD-dependent manner. These results indicate that Gpnmb is a melanosome-associated glycoprotein that contributes to adhesion of melanocytes with keratinocytes.

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The DC‐HIL/syndecan‐4 pathway inhibits human allogeneic T‐cell responses

Chung

Bonkobara

Tomihari

et al. 2009

Eur J Immunol

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T-cell activation is regulated by binding of ligands on APC to corresponding receptors on T cells. In mice, we discovered that binding of DC-HIL on APC to syndecan-4 (SD-4) on activated T cells potently inhibits T-cell activation. In humans, we now show that DC-HIL also binds to SD-4 on activated T cells through recognition of its heparinase-sensitive saccharide moiety. DC-HIL blocks anti-CD3-induced T-cell responses, reducing secretion of pro-inflammatory cytokines and blocking entry into the S phase of the cell cycle. Binding of DC-HIL phosphorylates SD-4's intracellular tyrosine and serine residues. Anti-SD-4 Ab mimics the ability of DC-HIL to attenuate anti-CD3 response more potently than Ab directed against other inhibitory receptors (CTLA-4 or programmed cell death-1). Among leukocytes, DC-HIL is expressed highest by CD14 1 monocytes and this expression can be upregulated markedly by TGF-b. Among APC, DC-HIL is expressed highest by epidermal Langerhans cells, an immature type of dendritic cells. Finally, the level of DC-HIL expression on CD14 1 monocytes correlates inversely with allostimulatory capacity, such that treatment with TGF-b reduced this capacity, whereas knocking down the DC-HIL gene augmented it. Our findings indicate that the DC-HIL/SD-4 pathway can be manipulated to treat T-cell-driven disorders in humans.

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Immunization with a Lentivector That Targets Tumor Antigen Expression to Dendritic Cells Induces Potent CD8 ⁺ and CD4 ⁺ T-Cell Responses

Lopes

Dewannieux

Gileadi

et al. 2008

J Virol

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Lentivectors stimulate potent immune responses to antigen transgenes and are being developed as novel genetic vaccines. To improve safety while retaining efficacy, we constructed a lentivector in which transgene expression was restricted to antigen-presenting cells using the mouse dectin-2 gene promoter. This lentivector expressed a green fluorescent protein (GFP) transgene in mouse bone marrow-derived dendritic cell cultures and in human skin-derived Langerhans and dermal dendritic cells. In mice GFP expression was detected in splenic dectin-2 ؉ cells after intravenous injection and in CD11c ؉ dendritic cells in the draining lymph node after subcutaneous injection. A dectin-2 lentivector encoding the human melanoma antigen NY-ESO-1 primed an NY-ESO-1-specific CD8 ؉ T-cell response in HLA-A2 transgenic mice and stimulated a CD4 ؉ T-cell response to a newly identified NY-ESO-1 epitope presented by H2 I-A b . As immunization with the optimal dose of the dectin-2 lentivector was similar to that stimulated by a lentivector containing a strong constitutive viral promoter, targeting antigen expression to dendritic cells can provide a safe and effective vaccine.

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DC-HIL/Glycoprotein Nmb Promotes Growth of Melanoma in Mice by Inhibiting the Activation of Tumor-Reactive T Cells

Tomihari

Chung

Akiyoshi

et al. 2010

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DC-HIL/glycoprotein nmb (Gpnmb) expressed on antigen-presenting cells attenuates T-cell activation by binding to syndecan-4 (SD-4) on activated T cells. Because DC-HIL/Gpnmb is expressed abundantly by mouse and human melanoma lines, we posited that melanoma-associated DC-HIL/Gpnmb exerts similar inhibitory function on melanoma-reactive T cells. We generated small interfering RNA-transfected B16F10 melanoma cells to completely knock down DC-HIL/Gpnmb expression, with no alteration in cell morphology, melanin synthesis, or MHC class I expression. This knockdown had no effect on B16F10 proliferation in vitro or entry into the cell cycle following growth stimulation, but it markedly reduced the growth of these cells in vivo following their s.c. injection into syngeneic immunocompetent (but not immunodeficient) mice. This reduction in tumor growth was due most likely to an augmented capacity of DC-HIL-knocked down B16F10 cells (compared with controls) to activate melanoma-reactive T cells as documented in vitro and in mice. Whereas DC-HIL knockdown had no effect on susceptibility of melanoma to killing by cytotoxic T cells, blocking SD-4 function enhanced the reactivity of CD8 + T cells to melanoma-associated antigens on parental B16F10 cells.Using an assay examining the spread to the lung following i.v. injection, DC-HIL-knocked down cells produced lung foci at similar numbers compared with that produced by control cells, but the size of the former foci was significantly smaller than the latter. We conclude that DC-HIL/Gpnmb confers upon melanoma the ability to downregulate the activation of melanoma-reactive T cells, thereby allowing melanoma to evade immunologic recognition and destruction. As such, the DC-HIL/SD-4 pathway is a potentially useful target for antimelanoma immunotherapy. Cancer Res; 70(14); 5778-87. ©2010 AACR.

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Mizuki Tomihari

Gpnmb is a melanosome‐associated glycoprotein that contributes to melanocyte/keratinocyte adhesion in a RGD‐dependent fashion

The DC‐HIL/syndecan‐4 pathway inhibits human allogeneic T‐cell responses

Immunization with a Lentivector That Targets Tumor Antigen Expression to Dendritic Cells Induces Potent CD8 ⁺ and CD4 ⁺ T-Cell Responses

DC-HIL/Glycoprotein Nmb Promotes Growth of Melanoma in Mice by Inhibiting the Activation of Tumor-Reactive T Cells

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Mizuki Tomihari

Gpnmb is a melanosome‐associated glycoprotein that contributes to melanocyte/keratinocyte adhesion in a RGD‐dependent fashion

The DC‐HIL/syndecan‐4 pathway inhibits human allogeneic T‐cell responses

Immunization with a Lentivector That Targets Tumor Antigen Expression to Dendritic Cells Induces Potent CD8 + and CD4 + T-Cell Responses

DC-HIL/Glycoprotein Nmb Promotes Growth of Melanoma in Mice by Inhibiting the Activation of Tumor-Reactive T Cells

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Immunization with a Lentivector That Targets Tumor Antigen Expression to Dendritic Cells Induces Potent CD8 ⁺ and CD4 ⁺ T-Cell Responses