Yoshiki Ryoma

Expression of Toll-Like Receptor 4 on Dendritic Cells Is Significant for Anticancer Effect of Dendritic Cell-Based Immunotherapy in Combination with an Active Component of OK-432, a Streptococcal Preparation

A lipoteichoic acid-related molecule OK-PSA is an active component of OK-432, a Streptococcus-derived anticancer immunotherapeutic agent. In the present study, we first examined the effect of OK-PSA on the maturation of dendritic cells (DCs) in vitro by using the DCs derived from 5 healthy donors and 10 patients with head and neck cancer with or without expression of toll-like receptor 4 (TLR4) or MD-2 mRNA. OK-PSA treatment effectively increased the surface expression of MHC class II, CD80, CD83, and CD86. OK-PSA-stimulated DCs secreted the cytokines that can induce helper T-cell 1 (Th1)-type T-cell response, and stimulated allogeneic T cells to produce IFN-γ and to elicit an allogeneic antigen-specific cytotoxicity. These activities almost depended on expression of TLR4 and MD-2 genes. We next investigated the in vivo anticancer effect of intratumoral administration of syngeneic DCs followed by OK-PSA against established tumors in mice. C57BL/6 mice, which express wild-type TLR4, and C57BL/6-derived TLR4-knockout (TLR4−/−) mice were used. Although OK-PSA accelerated the antitumor effect of intratumoral DC administration in wild-type mice bearing syngeneic tumors, the antitumor effect of OK-PSA as well as of the combination therapy with DCs and OK-PSA was not significant in TLR4−/− mice. Interestingly, an administration of wild-type-mouse-derived DCs followed by OK-PSA exhibited a marked antitumor effect even in the TLR4−/− mice. These findings suggest that OK-PSA may be a potent adjuvant for local DC therapy, and that DC therapy followed by OK-PSA is able to elicit anticancer activity even in a TLR4-deficient host when TLR4 is expressed only in DCs injected intratumorally.

Mechanism of anticancer host response induced by OK-432, a streptococcal preparation, mediated by phagocytosis and Toll-like receptor 4 signaling

It has previously been reported by our group that Toll-like receptor (TLR) 4 is involved in anticancer immunity induced by OK-432, a Streptococcus-derived immunotherapeutic agent. However the detailed mechanism of the OK-432-induced immune response via TLR4 remained uncertain, because it may not be possible for OK-432, which consists of whole bacterial bodies, to bind directly to TLR4. In the current study, we conducted in vitro and in vivo experiments to investigate the hypothesis that OK-432 may first be captured and dissolved by phagocytes and that the active components released by the cells may then induce host responses via TLR4. TS-2 monoclonal antibody, which recognizes an active component of OK-432 designated OK-PSA was used in the current study. First, it was observed that OK-432-induced cytokine production by dendritic cells (DCs) and macrophages was significantly inhibited in vitro by cytochalasin B, a phagocytosis inhibitor. Immunofluorescence staining using TS-2 demonstrated that OK-432 was captured and dissolved by phagocytes. OK-PSA was detected in the supernatants derived from OK-432-treated DC culture by enzyme-linked immunosorbent assay using TS-2. Supernatants from OK-432-treated DC culture increased nuclear factor (NF)-κB activity in TLR4-expressing cells, and the increased activity was inhibited by TS-2 antibody. OK-432 itself did not activate NF-κB in these cells. In in vivo experiments, the anticancer effect of OK-432 was significantly inhibited by suppression of phagocytosis activity by cytochalasin B. In this case, the amount of OK-PSA, an active component of OK-432, in the sera was also reduced by cytochalasin B. These findings elucidated the mechanism mediated by phagocytosis and TLR4 signaling in the immune effect of OK-432.

Anti-tumor effect of an intratumoral administration of dendritic cells in combination with TS-1, an oral fluoropyrimidine anti-cancer drug, and OK-432, a streptococcal immunopotentiator: Involvement of toll-like receptor 4

The authors investigated the in vivo anti-tumor effect of intratumoral administration of bone marrow-derived dendritic cells (DCs) after chemotherapy using an oral fluoropyrimidine anti-cancer drug TS-1, and followed by immunotherapeutic agent OK-432, in two syngeneic tumor-bearing mouse models. Both in Meth-A fibrosarcoma-bearing BALB/c mice and in SCCVII-bearing C3H/HeN mice, 1 week of oral administration of TS-1 effected partial eradication of established tumors. Intratumoral injection of DCs and OK-432 caused only slight inhibition of the tumor growth. However, TS-1 administration followed by DCs and OK-432 resulted in a marked inhibition in the tumor growth and also contributed to a greater prolongation of survival. By the injection of DCs and OK-432 after TS-1 administration, a significant infiltration of immune cells, especially CD8+ T cells, was observed. Furthermore, the cytotoxic activities of tumor-infiltrating lymphocytes and draining lymph node cells against inoculated tumor cells were significantly increased by the therapy, while activities against nonspecific target cells were not. Cytotoxic memory T cells were also induced; the main effectors were MHC class I-restricted, CD8+ T cells. The same therapy was also applied to SCCVII-bearing C3H/HeJ mice in which the Toll-like receptor (TLR) 4 is mutated and its function impaired; no immunotherapeutic effect was observed in the TLR4-deficient mouse model. These findings suggest that the local DC therapy in combination with TS-1 and OK-432 may be a useful strategy for the treatment of solid tumors, and that TLR4 signaling is involved in the success of this therapy.

Antitumor effect of OK-432-derived DNA: one of the active constituents of OK-432, a streptococcal immunotherapeutic agent.

OK-432 is a Streptococcus-derived immunotherapeutic agent for malignancies. Our group has tried to identify the effective components of OK-432 and has succeeded in isolating a lipoteichoic acid–related preparation designated as OK-PSA, which is a strong inducer of T helper 1 (TH1) cells, and elicits an anticancer effect via Toll-like receptor (TLR) 4. Conversely, bacterial DNA with unmethylated CpG motifs can stimulate a TH1-type host response via TLR9. The unmethylated CpG DNA contained in OK-432 may play a role in its anticancer effect. In the current study, we investigated the effect of OK-432–derived DNA (OK-DNA) in augmenting the anticancer immune response. Analysis of OK-DNA with the restriction enzymes Hpa II and MspI revealed that OK-DNA contained unmethylated CpG motifs. OK-DNA induced TH1-type cytokines such as interferon-γ, tumor necrosis factor-α, interleukin (IL)-12, and IL-18 and augmented killer cell activities in vitro on human peripheral blood mononuclear cells, whereas the methylated OK-DNA did not. Cytokines were also produced by OK-DNA–stimulated splenocytes derived from wild-type mice but not from TLR9-deficient mice. In the in vivo study, peritumoral administration of OK-DNA resulted in a significant inhibition of tumor growth in syngeneic tumor-bearing wild-type and TLR4-deficient mice but not in TLR9-deficient mice. The antitumor effect of OK-432 in TLR9-deficient mice was significantly but partially reduced compared with that in wild-type mice, whereas the effect of OK-432 was almost completely eliminated in TLR4-deficient mice. These findings suggest that unmethylated CpG DNA in OK-432 functions as an active component in OK-432–induced anticancer immunity via TLR9.

Anti-tumor immune response induced by the fractions derived from OK-432, a streptococcal preparation, by using a monoclonal antibody TS-2 that neutralizes the interferon-γ-inducing activity of OK-432: comparison between the TS-2-binding and TS-2-unbinding fraction

We have previously isolated a lipoteichoic acid (LTA)-related molecule (OK-PSA) from OK-432, a streptococcal agent, by affinity chromatography on a CNBr-activated Sepharose 4B bound TS-2 monoclonal antibody (mAb) that neutralizes the interferon (IFN)-gamma-inducing activity of OK-432. In the current study, we compared the cytokine-inducing and anti-tumor activities of OK-PSA, a TS-2-binding fraction, with those of OK-PTF, a TS-2-unbinding fraction, in order to determine the efficacy of OK-PSA for clinical use in affinity chromatography using TS-2. In the in vitro experiments using human peripheral blood mononuclear cells (PBMCs), OK-PSA markedly induced Th1-type cytokines, while interleukin (IL)-6 and IL-10, Th2-type cytokines, were induced by OK-PTF. Th1-cytokine induction by OK-PTF was not dose-dependent and was suppressed when PBMCs were treated with a high concentration of OK-PTF. In a mouse model, Th1 cytokines were also induced by OK-PSA and Th2 cytokines were induced by OK-PTF. Th2 cytokine-inducing activity of OK-PTF was accelerated in tumor-bearing mice relative to that in healthy mice. Although the anti-tumor effect of OK-PTF was statistically significant, it was much weaker than that of OK-PSA. A significant difference between the anti-tumor effect of OK-PSA and that of OK-PTF was observed (P<0.05). Finally, OK-PSA elicited its cytokine-inducing effect via Toll-like receptor (TLR) 4, whereas OK-PTF-induced signaling was mediated by both TLR2 and TLR4. These findings strongly suggested that the affinity chromatography using TS-2 is a useful strategy to separate the effective component for cancer therapy (OK-PSA) from other components.

Mechanism of antitumor effect on mouse hepatocellular carcinoma by intratumoral injection of OK-432, a streptococcal preparation

Intratumoral (i.t.) injection of OK-432, a streptococcal preparation, into implanted tumors of mouse hepatocellular carcinoma (MIH-2) showed antitumor effect including tumor eradication. Intraperitoneal administration of same dose OK-432 did not exhibit tumor suppressive effect. In vitro cytotoxic test suggested that direct cytotoxic effect of OK-432 was not associated with antitumor activity by i.t.-OK-432 treatment. It was also found that Toll-like receptor 4 signaling was not involved in i.t.-OK-432 treatment. Three mice out of five, which had shown tumor eradication by i.t.-OK-432 treatment did not reject re-challenge of MIH-2 cells. Splenocytes from i.t.-OK-432 treated mice did not produce IFN-gamma by stimulation with MIH-2 cells in vitro, but produced abundant IFN-gamma by stimulation with OK-432. Immunofluorescence microscopy demonstrated that CD4+T cells, but not CD8+T cells, infiltrated to i.t.-OK-432 treated tumor tissue produced IFN-gamma. Tumor-infiltrating CD4+T cells from i.t.-OK-432 treated tumor tissue produced IFN-gamma by in vitro stimulation with OK-432 higher than those from untreated tumor tissue. IFN-gamma directly induced apoptosis of MIH-2 cells in vitro. Collectively, i.t.-OK-432 treatment induced priming of CD4+T cells to antigenecity of OK-432, and repetitive i.t.-OK-432 treatment induced IFN-gamma production from OK-432-sensitized CD4+T cells in tumor site, leading to apoptosis of MIH-2 cells susceptible to IFN-gamma.

A randomized controlled study of immunochemotherapy with OK-432 after curative surgery for gastric cancer.

The effect of adjuvant immunochemotherapy including OK-432 (Picibanil) on survival was assessed in patients who underwent curative resection of gastric cancer. Patients enrolled in this randomized controlled study were randomly assigned to group A or group B. Group A patients received 800 mg/d 5′-DFUR (Furtulon) for 2 years from 2 weeks after the operation. Group B patients received OK-432 plus 5′-DFUR by the same regimen as in group A. This study enrolled 288 patients, and 1 patient with malignant lymphoma was excluded. Among the remaining 287 patients, 143 and 144 were allocated to group A and group B, respectively, and their data were included in statistical analysis. The 5-year survival rates for groups A and B were 62.9% and 63.8%, respectively, showing no significant difference (P = 0.7996).