Essential role of CD155 glycosylation in functional binding to DNAM-1 on natural killer cells.

The cluster of differentiation 155 (CD155) is highly expressed on tumor cells and augments or inhibits the cytotoxic activities of natural killer (NK) cells and T cells through its receptor ligands DNAX accessory molecule 1 (DNAM-1) and T-cell immunoglobulin (Ig) and immunoreceptor tyrosine-based inhibitory motif domain (TIGIT), respectively. Although CD155 is heavily glycosylated, the role of glycosylation of CD155 in the cytotoxic activity of effector lymphocytes remains unknown. Here, we show that the N-linked glycosylation at residue 105 (N105 glycosylation) in the first Ig-like domain of CD155 is involved in the binding of CD155 to both DNAM-1 and TIGIT. The N105 glycosylation also plays an essential role to induce signaling in both DNAM-1 and TIGIT reporter cells. Moreover, we show that the N105 glycosylation of CD155 contributes preferentially to the DNAM-1-mediated activating signal over the TIGIT-mediated inhibitory signal in NK cells. Our results demonstrated the important role of the N105 glycosylation of CD155 in DNAM-1 and TIGIT functions and shed new light on the understanding of tumor immune responses.

Lactic acid promotes PD-1 expression in regulatory T cells in highly glycolytic tumor microenvironments.

The balance of programmed death-1 (PD-1)-expressing CD8+ T cells and regulatory T (Treg) cells in the tumor microenvironment (TME) determines the clinical efficacy of PD-1 blockade therapy through the competition of their reactivation. However, factors that determine this balance remain unknown. Here, we show that Treg cells gain higher PD-1 expression than effector T cells in highly glycolytic tumors, including MYC-amplified tumors and liver tumors. Under low-glucose environments via glucose consumption by tumor cells, Treg cells actively absorbed lactic acid (LA) through monocarboxylate transporter 1 (MCT1), promoting NFAT1 translocation into the nucleus, thereby enhancing the expression of PD-1, whereas PD-1 expression by effector T cells was dampened. PD-1 blockade invigorated the PD-1-expressing Treg cells, resulting in treatment failure. We propose that LA in the highly glycolytic TME is an active checkpoint for the function of Treg cells in the TME via upregulation of PD-1 expression.

Hemagglutinating virus of Japan-envelope containing programmed cell death-ligand 1 siRNA inhibits immunosuppressive activities and elicits antitumor immune responses in glioma.

The programmed cell death-1/programmed cell death-ligand 1 (PD-1/PD-L1) pathway is involved in preventing immune system-mediated destruction of malignant tumors including glioblastoma. However, the therapeutic influence of PD-1/PD-L1 inhibition alone in glioblastoma is limited. To develop effective combination therapy involving PD-1/PD-L1 inhibition, we used a non-replicating virus-derived vector, hemagglutinating virus of Japan-envelope (HVJ-E), to inhibit tumor cell PD-L1 expression by delivering siRNA targeting PD-L1. HVJ-E is a promising vector for efficient delivery of enclosed substances to the target cells. Moreover, HVJ-E provokes robust antitumoral immunity by activating natural killer (NK) cells and cytotoxic T lymphocytes (CTLs), and by suppressing regulatory T lymphocytes (Treg). We hypothesized that we could efficiently deliver PD-L1-inhibiting siRNAs to tumor cells using HVJ-E, and that synergistic activation of antitumoral immunity would occur due to the immunostimulating effects of HVJ-E and PD-1/PD-L1 inhibition. We used artificially induced murine glioma stem-like cells, TS, to create mouse (C57BL/6N) glioblastoma models. Intratumoral injection of HVJ-E containing siRNA targeting PD-L1 (siPDL1/HVJ-E) suppressed the expression of tumor cell PD-L1 and significantly suppressed tumor growth in subcutaneous models and prolonged overall survival in brain tumor models. Flow cytometric analyses of brain tumor models showed that the proportions of brain-infiltrating CTL and NK cells were significantly increased after giving siPDL1/HVJ-E; in contrast, the rate of Treg/CD4+ cells was significantly decreased in HVJ-E-treated tumors. CD8 depletion abrogated the therapeutic effect of siPDL1/HVJ-E, indicating that CD8+ T lymphocytes mainly mediated this therapeutic effect. We believe that this non-replicating immunovirotherapy may be a novel therapeutic alternative to treat patients with glioblastoma.

Tumor-derived soluble CD155 inhibits DNAM-1-mediated antitumor activity of natural killer cells.

CD155 is a ligand for DNAM-1, TIGIT, and CD96 and is involved in tumor immune responses. Unlike mouse cells, human cells express both membranous CD155 and soluble CD155 (sCD155) encoded by splicing isoforms of CD155. However, the role of sCD155 in tumor immunity remains unclear. Here, we show that, after intravenous injection with sCD155-producing B16/BL6 melanoma, the numbers of tumor colonies in wild-type (WT), TIGIT knock-out (KO), or CD96 KO mice, but not DNAM-1 KO mice, were greater than after injection with parental B16/BL6 melanoma. NK cell depletion canceled the difference in the numbers of tumor colonies in WT mice. In vitro assays showed that sCD155 interfered with DNAM-1-mediated NK cell degranulation. In addition, DNAM-1 had greater affinity than TIGIT and CD96 for sCD155, suggesting that sCD155 bound preferentially to DNAM-1. Together, these results demonstrate that sCD155 inhibits DNAM-1-mediated cytotoxic activity of NK cells, thus promoting the lung colonization of B16/BL6 melanoma.

High expression of soluble CD155 in estrogen receptor-negative breast cancer.

BACKGROUND: The poliovirus receptor (CD155) is expressed ubiquitously at low levels on both hematopoietic and nonhematopoietic cells, but its expression is upregulated in various tumor cells. An activating receptor DNAM-1 expressed on cytotoxic T lymphocytes (CTLs) and natural killer (NK) cells binds to CD155 and mediates the cytotoxic activity of CTLs and NK cells against tumors. Unlike mouse tissues, human tissues express a soluble form of CD155 (sCD155), which is a splicing isoform of CD155 lacking the transmembrane region. We previously reported that the serum levels of sCD155 were higher in lung, gastrointestinal, breast, and gynecologic cancer patients than in healthy donors. Here, we focus on breast cancer patients. METHODS: To analyze the association between serum level of sCD155 and clinicopathological parameters of breast cancer, we quantified sCD155 in the sera of 153 breast cancer patients by sandwich ELISA. RESULTS: sCD155 levels in the sera of breast cancer patients were positively correlated with patient age, disease stage, and invasive tumor size. Moreover, they were higher in patients with estrogen receptor (ER)-negative cancers than in those with ER-positive tumors, and higher in those with Ki-67-high cancers than in those with Ki-67-low cancers. CONCLUSIONS: The serum level of sCD155 is correlated with high risk factors in breast cancer.

Development and Characterization of Novel Monoclonal Antibodies Against Human DNAM-1.

DNAM-1 (CD226) is an activating immunoreceptor expressed on lymphocytes and myeloid cells. CD155 and CD112 are the ligands for DNAM-1. DNAM-1 plays an important role in tumor immunity mediated by CD8+ T cells and NK cells. Moreover, the interaction of DNAM-1 with the ligands contributed to the development of acute graft versus host disease (GVHD) and treatment with anti-DNAM-1 monoclonal antibodies (mAb) dramatically improved acute GVHD in a mouse model, suggesting that DNAM-1 may be a good molecular target for therapy to acute GVHD in human. In this study, we generated and characterized five novel clones of anti-human DNAM-1 mAbs, named TX94, TX95, TX96, TX107, and TX108. Among these mAbs, TX94 is a unique neutralizing mAb that most efficiently blocked the interaction between DNAM-1 and CD155. Furthermore, TX94 inhibited NK cell-mediated cytotoxicity against a tumor cell line and suppressed CD8+ T cell proliferation mediated by allogeneic mixed lymphocyte reaction. Thus, TX94 may be useful for molecular therapy targeting DNAM-1.

Increased Soluble CD155 in the Serum of Cancer Patients.

Emerging evidence suggests that DNAM-1 (CD226) play an important role in the recognition of tumor cells and their lysis by cytotoxic T lymphocytes (CTL) and NK cells. Although the DNAM-1 ligand CD155 is ubiquitously expressed in various tissues, many human tumors significantly upregulate the expression of CD155; DNAM-1 on CTL and NK cells may be involved in tumor immunity. However, unlike those in mice, human tissues also express soluble isoforms of CD155 (sCD155) that lack the transmembrane region. Here, we show that sCD155 levels were significantly higher in the sera of 262 patients with lung, gastrointestinal, breast, and gynecologic cancers than in sera from healthy donors. In addition, the sCD155 levels were significantly higher in patients with early stage (stages 1 and 2) gastric cancer than in healthy donors, and were significantly higher in patients with advanced stage (stages 3 and 4) disease than in patients in those with early stage disease and healthy donors. Moreover, the sCD155 levels were significantly decreased after surgical resection of cancers. Thus, sCD155 level in serum may be potentially useful as a biomarker for cancer development and progression.