Hiroshi Nagai

Interleukin-23 and Interleukin-27 Exert Quite Different Antitumor and Vaccine Effects on Poorly Immunogenic Melanoma

Recent studies revealed that two novel interleukin (IL)-12-related cytokines, IL-23 and IL-27, have potent antitumor activities. However, the antitumor effects were mainly evaluated in relatively highly immunogenic tumors and have not been fully evaluated against nonimmunogenic or poorly immunogenic tumors. In this study, we investigated the antitumor efficacies of IL-23 and IL-27 on poorly immunogenic B16F10 melanoma and found that the antitumor responses mediated by IL-23 and IL-27 were clearly different. In syngeneic mice, mouse single-chain (sc) IL-23-transfected B16F10 (B16/IL-23) tumors exhibited almost the same growth curve as B16F10 parental tumor about until day 20 after tumor injection and then showed growth inhibition or even regression. In contrast, scIL-27-transfected B16F10 (B16/IL-27) tumors exhibited significant retardation of tumor growth from the early stage. In vivo depletion assay revealed that the antitumor effect of B16/IL-23 was mainly mediated by CD8+ T cells and IFN-gamma whereas that of B16/IL-27 mainly involved natural killer cells and was independent of IFN-gamma. We also found that antitumor effects of B16/IL-23 and B16/IL-27 were synergistically enhanced by treatment with IL-18 and IL-12, respectively. Furthermore, B16/IL-23-vaccinated mice developed protective immunity against parental B16F10 tumors but B16/IL-27-vaccinated mice did not. When combined with prior in vivo depletion of CD25+ T cells, 80% of B16/IL-23-vaccinated mice completely rejected subsequent tumor challenge. Finally, we showed that the systemic administration of neither IL-23 nor IL-27 induced such intense toxicity as IL-12. Our data support that IL-23 and IL-27 might play a role in future cytokine-based immunotherapy against poorly immunogenic tumors.

Antiproliferative Activity of IL-27 on Melanoma

IL-27 is a member of the IL-6/IL-12 family and activates both STAT1 and STAT3 through its receptor, which consists of WSX-1 and gp130. We previously demonstrated that IL-27 has potent antitumor activities, which are mediated through CD8+ T cells, NK cells, or its own antiangiogenic activity. In this study, we demonstrate that IL-27 also possesses a direct antiproliferative activity on melanoma. Although WSX-1 expression was hardly detected in parental mouse melanoma B16F10 cells, IL-27 activated STAT1 and STAT3 and up-regulated MHC class I in B16F10 transfectants expressing wild-type WSX-1. In contrast, IL-27 failed to activate STAT1 and up-regulate MHC class I in those expressing mutant WSX-1, in which the putative STAT1-binding Tyr-609 of the cytoplasmic region was replaced by Phe. IL-27 inhibited the tumor growth of transfectants expressing wild-type WSX-1 in a dose-dependent manner. IL-27 augmented the expression of IFN regulatory factor (IRF)-1 and IRF-8, which possess tumor suppressor activities, in B16F10 transfectants expressing wild-type WSX-1. Down-regulation of IRF-1 but not IRF-8 with small interfering RNA partially blocked the IL-27-induced growth inhibition. A small, but significant, direct antiproliferative effect of IL-27 was also observed in vivo. Moreover, several human melanoma cells were revealed to express both IL-27 receptor subunits, and activation of STAT1 and STAT3 and growth inhibition by IL-27 were detected. These results suggest that IL-27 has an antiproliferative activity on melanomas through WSX-1/STAT1 signaling. Thus, IL-27 may be an attractive candidate as an antitumor agent applicable to cancer immunotherapy.

In vivo elimination of CD25+ regulatory T cells leads to tumor rejection of B16F10 melanoma, when combined with interleukin‐12 gene transfer

Abstract:  CD4+CD25+ T cells are an important population that plays a crucial role in the maintenance of peripheral self‐tolerance. Recently, it was shown that the elimination of these cells by in vivo administration of anti‐CD25 monoclonal antibody (mAb) caused the regression of highly immunogenic tumors in syngeneic mice. In this study, we examined whether B16F10 melanoma cells regressed with the elimination of CD25+ regulatory T cells. We found the melanoma cells were not affected at all by in vivo anti‐CD25 mAb administration alone but tumor rejection resulted in all mice when the administration was combined with IL‐12 gene transfer to tumor cells. In vivo, depletion of natural killer (NK) cells or CD8+ T cells cancelled the tumor rejection. NK‐cell depletion allowed IL‐12‐transfected B16F10 melanoma (B16/IL‐12) to grow from an early stage and resulted in a more rapid tumor growth of B16/IL‐12 than that in mice without administration of anti‐CD25 mAb. On the other hand, CD8+ T‐cell depletion did not affect the tumor growth in the early phase but allowed B16/IL‐12 to grow in rather a late phase and resulted in almost the same degree of tumor growth as in mice without administration of anti‐CD25 mAb. In a previous study, we showed that the elimination of CD4+ T cells enhanced the antitumor effect of B16/IL‐12 and induced vitiligo‐like coat color alteration. Therefore, we also examined the frequency of the change to a vitiligo‐like coat color in mice showing tumor rejection caused by CD25+ T‐cell elimination to compare with the mechanism enhancing the antitumor effects by cell elimination. The elimination of CD25+ T cells did not induce vitiligo‐like coat color changes, though that of CD4+ T cells induced the change in 60% of mice. Furthermore, we confirmed that elimination of CD25+ T cells did not affect the T‐helper (Th) 1/Th2 cytokine profile, while that of CD4+T cells abrogated the Th2 cytokines (IL‐4 and IL‐10) and resulted in a Th1‐dominant cytokine profile in the tumor‐draining lymph nodes (TDLNs) of B16/IL‐12‐bearing mice. These results indicate that in vivo depletion of CD25+ regulatory T cells is a potent useful adjuvant in immunotherapy of B16F10 melanoma, when combined with IL‐12 gene transfer and that the enhancement of the antitumor effect by CD25+ T‐cell depletion is mediated through CD8+ T cells and may differ from the enhancing mechanism caused by CD4+ T‐cell depletion.

Synergistic antitumor effects of interleukin-12 gene transfer and systemic administration of interleukin-18 in a mouse bladder cancer model

Abstract We introduced the interleukin-12 (IL-12) gene into the mouse bladder cancer cell line (MBT2) to establish sublines that secrete bioactive IL-12. IL-12-secreting MBT2 (MBT2/IL-12) sublines were completely rejected when subcutaneously implanted into immunocompetent syngeneic C3H mice. Although this antitumor effect did not change when IL-12-secreting cells were injected into immunodeficient mice whose CD8+ T or CD4+ T cells had been depleted by the corresponding antibody, it was abrogated when natural killer cells were depleted by anti-asialoGM1 antibody. In addition, when parental MBT2 cells mixed with MBT2/IL-12 cells were subcutaneously injected into mice, admixed MBT2/IL-12 inhibited the growth of the parental tumor. Furthermore, this antitumor effect was enhanced by systemic IL-18 administration. This synergism was abrogated when the mice were treated with interferon-γ-neutralizing antibody in vivo. In conclusion, local secretion of IL-12 led to effective antitumor activity that was enhanced by systemic administration of IL-18. Interferon-γ plays an important role in the synergism of IL-12 gene transduction and systemic administration of IL-18.

Antitumor Effects on Mouse Melanoma Elicited by Local Secretion of Interleukin-12 and Their Enhancement by Treatment with Interleukin-18

Abstract To investigate the mechanism of the antitumor effect of locally secreted interleukin-12 (IL-12), we introduced the IL-12 p35 and p40 cDNAs into mouse B16 melanoma cells. IL-12 gene-transfected B16 melanoma (B16/IL12) showed marked retardation of tumor growth when implanted subcutaneously into syngeneic mice. In these mice, depletion of not only Natural Killer (NK) cells but also CD8+ T cells diminished the antitumor effect of locally secreted IL-12. Immunohistochemical analysis showed that NK cells and macrophages accumulated more densely at the center and periphery of B16/IL12 tumors than that of parental B16 tumors, whereas CD4+ T cells and CD8+ T cells accumulated sparsely only at the periphery of both transfected and untransfected tumors. Systemic treatment with interleukin-18 (IL-18) markedly inhibited the growth of B16/IL12 but did not influence the tumor growth of parental B16 cells in vivo. These results suggest that local IL-12 secretion can retard the growth of B16 melanoma mediated primarily by NK cells and indirectly by CD8+ T cells and that its antitumor effect is augmented by systemic treatment with the novel cytokine IL-18.

Characterization of dermatitis arising spontaneously in DS-Nh mice maintained under conventional conditions: another possible model for atopic dermatitis

DS-Nh (DS Nh/+) mice spontaneously develop dermatitis when they are housed in a conventional environment. In this study, we analyzed the clinical and histopathological features of dermatitis in DS-Nh mice, which is characterized by erythema, edema, and erosion on the face, neck, chest and flexor surfaces of their forelegs with marked scratching behavior. Histopathological examination, including immunohistochemistry, revealed that inflammatory cells consisting of mast cells, eosinophils, CD4-positive T cell-dominant lymphocytes and CD11b-positive macrophages infiltrated the skin lesions. The cytokine production pattern of inflammatory cells in a lesional skin tissue was shifted to the Th2-type (IL-4) rather than the Th1 type (IFN-gamma). Serum IgE levels were elevated and correlated with the severity of the clinical skin conditions. These skin symptoms were observed in association with a colonization of Staphylococcus aureus. Similar clinical and histopathological symptoms were inducible with repeated percutaneous immunization of heat-killed S. aureus on the back of SPF DS-Nh mice. These results suggest that the spontaneous dermatitis that occurs in conventionally raised DS-Nh mice is comparable to a certain type of human atopic dermatitis (AD), which is associated with S. aureus, a recognized environmental factor. Thus, we consider that DS-Nh mice offer a useful model for investigating the pathogenesis of AD and for developing new therapeutic approaches or drugs for treating AD.

Effectiveness of cancer vaccine therapy using cells transduced with the interleukin-12 gene combined with systemic interleukin-18 administration

We introduced the interleukin-12 (IL-12) gene into mouse renal cell carcinoma (RenCa) cells to develop a tumor vaccine and to examine mechanisms of tumor rejection. IL-12-secreting RenCa (RenCa/IL-12) cells were completely rejected when implanted into syngeneic BALB/c but not athymic nude mice, suggesting that T cells were involved in this antitumor effect. Depletion of natural killer (NK) cells in nude mice did not affect the tumor growth of RenCa/IL-12. The simultaneous injection of mitomycin C-treated RenCa/IL-12 inhibited the tumor growth of parental RenCa injected at a distant site, whereas injection of mitomycin C-treated parental RenCa did not. The antitumor effect of RenCa/IL-12 as a cancer vaccine was induced by CD8+ T cells and NK cells and was inhibited by CD4+ T cells. Although the systemic administration of recombinant IL-18 (rIL-18) alone did not inhibit the tumor growth, it did enhance the cancer vaccine effect of RenCa/IL-12. The combination therapy of RenCa/IL-12 and the systemic administration of rIL-18 retarded even the growth of established tumors. The effector cells of this combination therapy consist not only of CD8+ T cells and NK cells but also of CD4+ T cells. This synergistic cancer vaccine effect of in situ secretion of IL-12 and the systemic administration of rIL-18 may be attributed to a functional change of CD4+ T cells.

Src Homology 2 Domain-Containing Protein Tyrosine Phosphatase Substrate 1 Regulates the Migration of Langerhans Cells from the Epidermis to Draining Lymph Nodes

Src homology 2 domain-containing protein tyrosine phosphatase substrate 1 (SHPS-1) is a member of the signal regulatory protein family in which the extracellular region interacts with its ligand, CD47. Recent studies have demonstrated that SHPS-1 plays an important role in cell migration and cell adhesion. We demonstrate in this study, using immunohistochemical and flow cytometric analyses, that murine Langerhans cells (LCs) express SHPS-1. Treatment of mice ears with 2,4-dinitro-1-fluorobenzene significantly reduced the number of epidermal LCs, and that reduction could be reversed by pretreatment with mAb to SHPS-1 or the CD47-Fc fusion protein. Treatment with the SHPS-1 mAb in vivo reduced the number of FITC-bearing cells in the lesional lymph nodes after the application of FITC to the skin. The SHPS-1 mAb inhibited the in vivo TNF-α-induced migration of LCs. The emigration of dendritic cells expressing I-Ab+ from skin explants to the medium was also reduced by the SHPS-1 mAb. We further demonstrate that the chemotaxis of a murine dendritic cell line, XS52, by macrophage inflammatory protein-3β was significantly inhibited by treatment with the SHPS-1 mAb or CD47-Fc recombinant protein. Finally, we show that migration of LCs was attenuated in mutant mice that lack the intracellular domain of SHPS-1. These observations show that the ligation of SHPS-1 with the SHPS-1 mAb or with CD47-Fc abrogates the migration of LCs in vivo and in vitro, which suggests that the SHPS-1-CD47 interaction may negatively regulate LC migration.

The first report of adolescent TAFRO syndrome, a unique clinicopathologic variant of multicentric Castleman’s disease

BackgroundTAFRO syndrome is a unique clinicopathologic variant of multicentric Castleman’s disease that has recently been identified in Japan. It is characterized by a constellation of symptoms: Thrombocytopenia, Anasarca, reticulin Fibrosis of the bone marrow, Renal dysfunction and Organomegaly (TAFRO). Previous reports have shown that affected patients usually respond to immunosuppressive therapy, but the disease sometimes has a fatal course. TAFRO syndrome occurs in the middle-aged and elderly and there are no prior reports of the disease in adolescents. Here we report the first adolescent case, successfully treated with anti-IL-6 receptor antibody (tocilizumab, TCZ) and monitored with serial cytokine profiles.Case presentationA 15-year-old Japanese boy was referred to us with fever of unknown origin. Whole body computed tomography demonstrated systemic lymphadenopathy, organomegaly and anasarca. Laboratory tests showed elevated C-reactive protein and hypoproteinemia. Bone marrow biopsy revealed a hyperplastic marrow with megakaryocytic hyperplasia and mild reticulin fibrosis. Despite methylprednisolone pulse therapy, the disease progressed markedly to respiratory distress, acute renal failure, anemia and thrombocytopenia. Serum and plasma levels of cytokines, including IL-6, vascular endothelial growth factor, neopterin and soluble tumor necrosis factor receptors I and II, were markedly elevated. Repeated weekly TCZ administration dramatically improved the patient’s symptoms and laboratory tests showed decreasing cytokine levels.ConclusionTo our knowledge, this is the first report of TAFRO syndrome in a young patient, suggesting that this disease can occur even in adolescence. The patient was successfully treated with TCZ. During our patient’s clinical course, monitoring cytokine profiles was useful to assess the disease activity of TAFRO syndrome.

Inhibition of the Motility and Growth of B16F10 Mouse Melanoma Cells by Dominant Negative Mutants of Dok-1

ABSTRACT Dok-1 (p62Dok) is a multiple-site docking protein that acts downstream of receptor and nonreceptor tyrosine kinases. Although it has been proposed to contribute to the control of cell growth and migration through association with the Ras GTPase-activating protein and the adapter protein Nck, the role of Dok-1 remains largely unknown. The functions of Dok-1 have now been investigated by the generation of two different COOH-terminal truncation mutants of this protein: one (DokPH+PTB) containing the pleckstrin homology and phosphotyrosine-binding domains, and the other (DokPH) composed only of the pleckstrin homology domain. Both of these mutant proteins were shown to act in a dominant negative manner. Overexpression of each of the mutants in highly metastatic B16F10 mouse melanoma cells thus both inhibited the tyrosine phosphorylation of endogenous Dok-1 induced by cell adhesion as well as reduced the association of the endogenous protein with cellular membranes and the cytoskeleton. Overexpression of DokPH+PTB in these cells also markedly reduced both the rates of cell spreading, migration, and growth as well as the extent of Ras activation. The effects of DokPH on these processes were less pronounced than were those of DokPH+PTB, indicating the importance of the phosphotyrosine-binding domain. These results suggest that at least in B16F10 cells, Dok-1 positively regulates not only cell spreading and migration but also cell growth and Ras activity.