Antitumor activity of alpha-galactosylceramide, KRN7000, in mice with EL-4 hepatic metastasis and its cytokine production.

Liver metastasis of primary tumor is a clinically major problem. KRN7000, an alpha-galactosylceramide, significantly augments natural killer (NK) activity of spleen cells and shows strong antitumor activity in mice with lung metastasis of melanoma B16 cells. To test whether KRN7000 has an antitumor activity in mice with hepatic metastasis of tumors, we examined the effect of KRN7000 on NK activity of hepatic mononuclear cells (MNC) and the antitumor activity in mice with liver metastasis of EL-4 cells. The in vivo administration of KRN7000 significantly augmented NK activity of hepatic MNC and inhibited tumor growth of EL-4 cells in the liver more markedly than chemotherapeutic agents, leading to a relatively high rate of cured mice. In addition, it appeared that the KRN7000 treatment is effective in mice with established EL-4 tumors. Moreover, we found that KRN7000 can produce significant amounts of interleukin 2 (IL-2), IL-4, IL-12, and interferon-gamma in a dose-dependent manner. These results suggest that KRN7000 will be useful for the treatment of cancer liver metastasis.     

Antitumor effect of alpha-galactosylceramide (KRN7000) on spontaneous hepatic metastases requires endogenous interleukin 12 in the liver.

Hepatic metastasis is a major clinical problem in cancer treatment. We examined antitumor activity of alpha-galactosylceramide (KRN7000) on mice with spontaneous liver metastases of reticulum cell sarcoma M5076 tumor cells (spontaneous metastasis model). In this model, all mice that were s.c. challenged with one million tumor cells developed a solid s.c. mass by day 7 and died of hepatic metastases. In the current study, we administered 100 microg/kg of KRN7000 to the model mice on days 7, 11, and 15. This treatment suppressed the growth of established liver metastases and resulted in the prolongation of survival time. Fluorescence-activated cell sorter analysis of phenotypes of spleen cells, hepatic lymphocytes, and regional lymph node cells around the s.c. tumor revealed that CD3+NK1.1+ (NKT) cells increased in hepatic lymphocytes of the KRN7000-treated mice. Cytotoxic activity and IFN-gamma production of hepatic lymphocytes were augmented in comparison with those of spleen cells and regional LN cells. At the same time, interleukin (IL)-12 production of hepatic lymphocytes was markedly enhanced. Neutralization of IL-12 using a blocking monoclonal antibody diminished the prolonged survival time. These results showed that the in vivo antitumor effects of KRN7000 on spontaneous liver metastases were dependent on the endogenous IL-12 production, where NKT cells in the liver are suggested to be involved. Adjuvant immunotherapy using KRN7000 could be a promising modality for the prevention of postoperative liver metastases.     

Overexpression of interleukin-15 in vivo enhances antitumor activity against MHC class I-negative and -positive malignant melanoma through augmented NK activity and cytotoxic T-cell response

Interleukin (IL)-15, a pleiotropic cytokine, is involved in the development and maintenance of NK cells and memory CD8+ T cells. We examined the effects of in vivo overexpression of IL-15 on protection against 2 types of murine B16 melanoma lines, MHC class I-negative B16.44 and MHC class I-positive B16F10 cells, using IL-15 transgenic (Tg) mice that we have recently constructed. The tumor growth was severely retarded in IL-15 Tg mice after subcutaneous (s.c.) inoculation with B16.44 or B16F10 cells. IL-15 Tg mice showed an augmented NK cell activity against B16.44 cells, and in vivo depletion of NK cells by anti-asialoGM1 Ab treatment abrogated the antitumor activity in IL-15 Tg mice. On the other hand, IL-15 Tg mice inoculated with B16F10 cells developed a significant level of CTL response against B16F10 cells, and in vivo depletion of CD8+ T cells by anti-CD8 MAb treatment abrogated the antitumor activity. Thus, overexpression of IL-15 augmented antitumor activity against different tumors via augmentation of different antitumor mechanisms. These results suggest a possible therapeutic application of IL-15 for human neoplasms expressing a wide range of MHC class molecules.     

Antitumor effects on mouse melanoma elicited by local secretion of interleukin-12 and their enhancement by treatment with interleukin-18

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.     

A phase I study of the natural killer T-cell ligand alpha-galactosylceramide (KRN7000) in patients with solid tumors.

PURPOSE: alpha-galactosylceramide (KRN7000) is a glycosphingolipid that has been shown to inhibit tumor growth and to prolong survival in inoculated mice through activation of natural killer (NK) T cells. We performed a dose escalation study of KRN7000 in advanced cancer patients. EXPERIMENTAL DESIGN: Patients with solid tumors received i.v. KRN7000 (50-4,800 micro g/m(2)) on days 1, 8, and 15 of a 4-weekly cycle. Patients were given 1 cycle and, in the absence of dose-limiting toxicity or progression, treatment was continued. Pharmacokinetics (PK) and immunomonitoring were performed in all patients. RESULTS: Twenty-four patients were entered into this study. No dose-limiting toxicity was observed over a wide range of doses (50-4,800 micro g/m(2)). PK was linear in the dose range tested. Immunomonitoring demonstrated that NKT cells (CD3+Valpha24+Vbeta11+) typically disappeared from the blood within 24 h of KRN7000 injection. Additional biological effects included increased serum cytokine levels (tumor necrosis factor alpha and granulocyte macrophage colony-stimulating factor) in 5 of 24 patients and a transient decrease in peripheral blood NK cell numbers and cytotoxicity in 7 of 24 patients. Importantly, the observed biological effects depended on pretreatment NKT-cell numbers rather than on the dose of KRN7000. Pretreatment NKT-cell numbers were significantly lower in patients compared with healthy controls (P = 0.0001). No clinical responses were recorded and seven patients experienced stable disease for a median duration of 123 days. CONCLUSION: i.v. KRN7000 is well tolerated in cancer patients over a wide range of doses. Biological effects were observed in several patients with relatively high pretreatment NKT-cell numbers. Other therapeutic strategies aiming at reconstitution of the deficient NKT-cell population in cancer patients may be warranted.     

Survival benefit of KRN7000 immune therapy in combination with TNP470 in hamster liver metastasis model of pancreatic cancer

Pancreatic cancer is a solid malignancy with the poor prognosis largely due to frequent and lethal liver metastases. The combination of immunotherapy and anti-angiogenesis therapy might be a hopeful strategy for the treatment of distant metastases. The benefits of the combination therapy by an immune stimulator alpha-galactosylceramide (KRN7000) and an angiogenesis inhibitor AGM-1470 (TNP470) were evaluated on the hamster highly aggressive liver metastasis model using the syngeneic pancreatic cancer cell line HPD-NR. KRN7000 immediately activated hepatic mono-nuclear cells to produce IFN-gamma in vitro. Intraportal injection of KRN7000 exhibited a dense accumulation of CD4-CD8- natural killer T cells, around the liver metastases in vivo. KRN7000 treatment significantly inhibited the growth of liver metastases, and importantly, significant survival prolongation was confirmed when TNP470 treatment was added to it. Furthermore, cytotoxic T lymphocytes were induced at the sites of a few residual metastases in the liver of a long-term survivor. Thus, the combination of KRN7000 and TNP470 showed a high effectiveness for the treatment of liver metastases of pancreatic cancer.     

Rejection of mouse melanoma elicited by local secretion of interleukin-2: Implicating macrophages without T cells or natural killer cells in tumor rejection

Tumor cells transduced with cytokine genes provide a model to study host-effector mechanisms involved in tumor rejection. Local IL-2 production within a tumor site mimics a specific helper-T-cell response, bypassing an immunization phase. Growth of mouse B16F10 melanomas transduced with interleukin-2 (IL-2) in syngeneic hosts were significantly delayed. IL-2-producing B16F10 cells were super-transduced with inter-feron-γ to up-regulate expression of major-histocompatibility-complex (MHC) antigens. Expression of class-1- or class-11-MHC molecules did not augment tumor rejection of IL-2-secreting tumor cells. Rejection of IL-2-transduced B16F10 cells in syngeneic mice was unaffected by depletion of CD8⁺ T-cell and NK1.1⁺ natural-killer (NK) cell populations. Tumor rejection occurred in SCID mice even after depletion of NK1.1⁺ cells, confirming that T cells and NK cells were not required for tumor rejection. Histologic examination of sites of tumor rejection showed inflammation, characterized by infiltrates of macrophages, occasional neutrophils, and areas of necrosis. When mice were treated systemically with macrophage-colony-stimulating factor to expand monocyte pools, tumor rejection was significantly augmented further. This study shows that in situ IL-2 production can result in tumor rejection mediated by inflammatory events, possibly involving macrophages, and mimicking a delayed-type hypersensitivity (DTH) response even in the absence of T cells and NK cells. Furthermore, tumor rejection can be enhanced by systemic administration of a cytokine to expand potential inflammatory cell populations. © 1995 Wiley-Liss, Inc.     

Inhibition of experimental tumor metastasis by selective activation of natural killer cells

The antitumor activity generated by selective activation of natural killer (NK) cells was studied in vitro and in vivo. Unlike Corynebacterium parvum CN6134, which activated both NK cells and macrophages, periodate-oxidized C. parvum CN6134 lost the ability to activate macrophages but retained almost all the NK-stimulating capacity of the untreated bacterium. The "inactive" C. parvum strain CN5888 also induced a modest, but selective, activation of NK cells. The enhanced NK cell-mediated cytotoxicity was expressed against YAC-1 lymphoma, UV-2237 fibrosarcoma, and B16 melanoma target cells in vitro and was manifested in vivo by increased destruction of circulating tumor cells and the inhibition of hematogenous tumor metastasis. Periodate-treated C. parvum was as effective in inhibiting the formation of B16 melanoma pulmonary metastases as was untreated C. parvum. In both cases, the inhibiting effect corresponded closely with the kinetics of NK cell activation.     

Role of natural killer cells in control of cancer metastasis

Summary There is a close association between levels of natural killer (NK) cell activity and the ability of the host to eliminate circulating tumor cell emboli. Mice that exhibit low levels of NK-cell-mediated cytotoxicity (3-week-old syngeneic mice, 3-week-old allogeneic nude mice, cyclophosphamide- or -estradiol-treated mice, and beige mice) also exhibit enhanced survival of tumor cells in the vascular bed of the lung and increased incidence of pulmonary tumor metastasis. Conversely, hosts with high NK cell activity (adult nude mice and syngeneic mice treated with NK-cell-stimulating biological response modifiers (BRM)) are very resistant to metastasis. Lymphoid adoptive transfer studies have shown that the effector cell responsible for the antimetastatic activity is the NK cell. In these studies, NK cells were highly effective in destroying circulating tumor cells before their extravasation into the organ parenchyma, whereas they exerted only a minimal inhibiting effect on already established micrometastases. The ability to activate NK cells selectively (without subsequently inducing suppressor macrophages) provides a valuable tool for the evaluation of the role of activated NK cells in therapy of tumor metastasis. The validity of this approach is supported by the finding that NK cells activated by BRM are effective in killing, both in vivo and in vitro, solid tumor cells that developed NK-cell-resistance as a result of adaptive growth in vivo or selection during the metastatic process. An understanding of the mechanisms that regulate NK cell activation or suppression as well as elucidation of the circulatory patterns and anatomical compartmentalization of activated NK cells will help achieve a sustained systemic and/or in situ activation of NK cells which may prove effective in the control of cancer metastasis.     

Soluble branched (1,4)-beta-D-glucans from Acetobacter species enhance antitumor activities against MHC class I-negative and -positive malignant melanoma through augmented NK activity and cytotoxic T-cell response

We previously found that an extracellular polysaccharide, AC-1, produced by Acetobacter polysaccharogenes composed of (1,4)-beta-D-glucan with branches of glucosyl residues showed a strong activity to induce production of interleukin (IL)-12 p40 and tumor necrosis factor-alpha by macrophage cell lines in vitro via Toll-like receptor-4 signaling. In the present study, we examined the effects of oral administration of AC-1 on protection against 2 types of murine B16 melanoma lines, major histocompatibility complex (MHC) class I-negative B16L and MHC class I gene-transfected B16K(b) cells. Mice were inoculated subcutaneously with B16L or B16K(b) cells on day 0 and administrated intragastrically with AC-1 or PBS once every 5 days from 1 day before tumor inoculation. The tumor growth was severely retarded in AC-1-treated mice after subcutaneous inoculation with B16L or B16K(b) cells. The AC-1-treated mice showed augmented natural killer (NK) cell activity against B16L cells, and in vivo depletion of NK cells by antiasialoGM1 antibody (Ab) treatment abrogated the antitumor activity in AC-1-treated mice. On the other hand, AC-1-treated mice inoculated with B16K(b) cells developed a significantly higher level of cytotoxic T-lymphocyte response against B16K(b) cells, and in vivo depletion of CD8(+) T cells by anti-CD8 mAb treatment abrogated the antitumor activity. Thus, AC-1 augmented antitumor activity against different tumors via augmentation of different antitumor mechanisms. These results suggest a possible prophylactic application of AC-1 for human neoplasms irrespective of expression levels of their MHC class I molecules.     

骨髓瘤独特型抗原致敏树突细胞诱导的主动免疫反应

背景与目的:大多数多发性骨髓瘤(multiplemyeloma,MM)无法通过大剂量化疗和造血干细胞移植治愈,应用树突细胞(DCs)瘤苗清除MM患者化疗后残留的骨髓瘤细胞,是近年来骨髓瘤免疫疗法的新策略。本研究旨在探讨负载Id的DC独特型瘤苗对自体MM细胞的体外杀伤作用。方法:从MM患者外周血中分离获取DCs前体细胞,用GM鄄CSF与IL鄄4诱导分化,培养第5天加入从患者血清中提取的IgG的F(ab’)2片段(Id),第7天加TNF鄄α促成熟,将Id冲击致敏的DCs与自体T淋巴细胞共培养3天,获得肿瘤特异性细胞毒性T淋巴细胞(CTLs)。MTT法检测致敏DCs促自体T淋巴细胞增殖能力,以及患者CTLs对自体MM细胞的特异性细胞毒杀伤作用。结果:GM鄄CSF、IL鄄4和TNF鄄α联合可以有效地从MM患者外周血单核细胞中诱导出大量成熟的功能性DCs。MM患者自体血清Id冲击致敏的成熟DCs能够显著提高T细胞增殖能力,且与DC∶T的比值呈正相关;同时在1∶10时刺激细胞为负载了Id的成熟DC组刺激指数(SI)值(39.1±6.0)%,明显高于未经Id刺激的成熟DC组、经Id刺激的未成熟DC组以及未经Id刺激的未成熟DC组[(19.3±7.7)%、(15.9±6.1)%和(11.4±4.9)%]。负载了Id的成熟DC能够使幼稚T细胞活化成为肿瘤独特型CTLs,各个剂量的CTLs均能诱导出针对自体MM细胞的抑制性杀伤反应,并且     

Reduction of the Side Effects of an Antitumor Agent, KRN5500, by Incorporation of the Drug into Polymeric Micelles

For intravenous (i.v.) injection of a water-insoluble antitumor drug, KRN5500, we have successfully incorporated KRN5500 into polymeric micelles. In the present study, in vitro and in vivo antitumor activity against several human tumor cell lines and toxicity in mice of polymeric micelles incorporating KRN5500 (KRN/m) were evaluated in comparison with those of the prototype KRN5500. KRN/m was found to express similar antitumor activity to KRN5500 in the in vitro and in vivo systems. However, the vascular damage and liver focal necrosis observed with KRN5500 i.v. injection were not seen when KRN/m was administered i.v. Therefore, we expect that KRN/m will be superior to KRN5500 for clinical use and that the methodology of polymeric micelle drug carrier systems can be applied to other water-insoluble drugs.     

局部注射小鼠白细胞介素12逆转录病毒包装细胞对大鼠肝癌的治疗

目的:研究低剂量环磷酸胺(Cy)联合MHC Ⅰ类限制性肿瘤抗原多肽Mutl致敏、白细胞介素2(IL-2)基因修饰的树突状细胞(DCs)对转移性肺癌小鼠的治疗作用及其免疫学机理.方法:制备小鼠骨髓来源的DCs,用转移性Lewis肺癌特异性多肽Mutl预激经IL-2基因修饰的DCs联合低剂量Cy治疗转移性肺癌小鼠.通过FACS分析其脾细胞内T淋巴细胞比例的变化,~51Cr释放法检测CTL和NK细胞杀伤活性.结果:肿瘤抗原多肽致敏、IL-2基因修饰的DCs与小剂量Cy联合后,能比单用DCs更有效地治疗转移性肺癌,小鼠脾细胞中CD8~ T细胞和NK1.1~ 细胞明显比例升高,联合治疗组诱导出的CTL杀伤活性最高.结论:以肿瘤抗原多肽冲击致敏的IL-2基因修饰的DCs联合小剂量Cy能更有效地促进荷瘤宿主免疫应答,具有显著地体内抑制肺癌转移的效果.     

低剂量环磷酰胺增强MHCⅠ类限制性肿瘤抗原多肽冲击致敏的树突状细胞的抗肿瘤转移效果

目的:研究低剂量环磷酸胺(Cy)联合MHC Ⅰ类限制性肿瘤抗原多肽Mutl致敏、白细胞介素2(IL-2)基因修饰的树突状细胞(DCs)对转移性肺癌小鼠的治疗作用及其免疫学机理.方法:制备小鼠骨髓来源的DCs,用转移性Lewis肺癌特异性多肽Mutl预激经IL-2基因修饰的DCs联合低剂量Cy治疗转移性肺癌小鼠.通过FACS分析其脾细胞内T淋巴细胞比例的变化,~51Cr释放法检测CTL和NK细胞杀伤活性.结果:肿瘤抗原多肽致敏、IL-2基因修饰的DCs与小剂量Cy联合后,能比单用DCs更有效地治疗转移性肺癌,小鼠脾细胞中CD8~+T细胞和NK1.1~+细胞明显比例升高,联合治疗组诱导出的CTL杀伤活性最高.结论:以肿瘤抗原多肽冲击致敏的IL-2基因修饰的DCs联合小剂量Cy能更有效地促进荷瘤宿主免疫应答,具有显著地体内抑制肺癌转移的效果.     

Synergistic antitumor responses by combined GITR activation and sunitinib in metastatic renal cell carcinoma

Sunitinib, a multitargeted tyrosine kinase inhibitor, is the frontline therapy for renal and gastrointestinal cancers. In view of its well‐documented proapoptotic and immunoadjuvant properties, we speculate that combination of Sunitinib and immunotherapy would provide a synergistic antitumor effect. Here, we report that a remarkably synergistic antitumor responses elicited by the combined treatment of Sunitinib and an agonistic antibody against glucocorticoid‐induced TNFR related protein (GITR) in a model of metastatic renal cell carcinoma. Sunitinib significantly increased the infiltration, activation, and proliferation and/or cytotoxicity of CD8⁺ T cells and NK cells in liver metastatic foci when combined with the anti (α)‐GITR agonist, which was associated with treatment‐induced prominent upregulation of Th1‐biased immune genes in the livers from mice receiving combined therapy versus single treatment. Sunitinib/α‐GITR treatment also markedly promoted the maturation, activation and cytokine production of liver‐resident macrophages and DCs compared with that achieved by α‐GITR or Sunitinib treatment alone in mice. Cell depletion experiments demonstrated that CD8⁺ T cells, NK cells and macrophage infiltrating liver metastatic foci all contribute to the antitumor effect induced by combined treatment. Furthermore, mechanistic investigation revealed that Sunitinib treatment reprograms tumor‐associated macrophages toward classically activated or “M1” polarization upon GITR stimulation and consequently mounts an antitumor CD8⁺ T and NK cell response via inhibiting STAT3 activity. Thus, our findings provide a proof of concept that Sunitinib can synergize with α‐GITR treatment to remodel the tumor immune microenvironment to trigger regressions of an established metastatic cancer.     

Reduction of the side effects of an antitumor agent, KRN5500, by incorporation of the drug into polymeric micelles.

For intravenous (i.v.) injection of a water-insoluble antitumor drug, KRN5500, we have successfully incorporated KRN5500 into polymeric micelles. In the present study, in vitro and in vivo anti-tumor activity against several human tumor cell lines and toxicity in mice of polymeric micelles incorporating KRN5500 (KRN/m) were evaluated in comparison with those of the prototype KRN5500. KRN/m was found to express similar antitumor activity to KRN5500 in the in vitro and in vivo systems. However, the vascular damage and liver focal necrosis observed with KRN5500 i.v. injection were not seen when KRN/m was administered i.v. Therefore, we expect that KRN/m will be superior to KRN5500 for clinical use and that the methodology of polymeric micelle drug carrier systems can be applied to other water-insoluble drugs.     

IFN-γ–STAT1-mediated NK2R expression is involved in the induction of antitumor effector CD8+ T cells in vivo

The induction of antitumor effector T cells in the tumor microenvironment is a crucial event for cancer immunotherapy. Neurokinin receptor 2 (NK2R), a G protein-coupled receptor for neurokinin A (NKA), regulates diverse physiological functions. However, the precise role of NKA–NK2R signaling in antitumor immunity is unclear. Here, we found that an IFN-γ–STAT1 cascade augmented NK2R expression in CD8⁺ T cells, and NK2R-mediated NKA signaling was involved in inducing antitumor effector T cells in vivo. The administration of a synthetic analog of double-stranded RNA, polyinosinic–polycytidylic acid (poly I:C), into a liver cancer mouse model induced type I and type II IFNs and significantly suppressed the tumorigenesis of Hepa1-6 liver cancer cells in a STAT1-dependent manner. The reduction in tumor growth was diminished by the depletion of CD8⁺ T cells. IFN-γ stimulation significantly induced NK2R and tachykinin precursor 1 (encodes NKA) gene expression in CD8⁺ T cells. NKA stimulation combined with anti-CD3 monoclonal antibody (mAb) treatment significantly augmented IFN-γ and granzyme B production by CD8⁺ T cells compared with the anti-CD3 mAb alone in vitro. ERK1/2 phosphorylation and IκBα degradation in activated CD8⁺ T cells were suppressed under NK2R deficiency. Finally, we confirmed that tumor growth was significantly increased in NK2R-deficient mice compared with that in wild-type mice, and the antitumor effects of poly I:C were abolished by NK2R absence. These findings suggest that IFN-γ–STAT1-mediated NK2R expression is involved in the induction of antitumor effector T cells in the tumor microenvironment, which contributes to the suppression of cancer cell tumorigenesis in vivo. In this study, we revealed that IFN-γ–STAT1-mediated NK2R expression is involved in the induction of antitumor effector CD8⁺ T cells in the tumor microenvironment, which contributes to suppressing the tumorigenesis of liver cancer cells in vivo.     

Adenovirus-interleukin-12-mediated tumor regression in a murine hepatocellular carcinoma model is not dependent on CD1-restricted natural killer T cells

The cytokine interleukin-12 (IL-12) has shown potent antitumor activity in several tumor models. Recently, natural killer (NK) T cells have been proposed to mediate the antitumor effects of IL-12. In this study, the antitumor response of IL-12 was investigated in a gene therapeutic model against s.c. growing mouse hepatocellular carcinomas using an adenoviral vector expressing murine IL-12 (AdVmIL-12). An adenoviral-based system was chosen because of the ability of adenoviruses to transduce dividing and nondividing cells and because of their high transduction efficiencies. Our goals were to examine the efficacy of AdVmIL-12 in a hepatocellular carcinoma model and to investigate the mechanism of the AdVmIL-12-mediated antitumor response with specific interest in the role of NK T cells. Our studies demonstrate that intratumoral AdVmIL-12-mediated regression of s.c. hepatocellular tumors is associated with rapid antitumor responses. AdVmIL-12 treatment was associated with an immune cellular infiltrate consisting of CD4 and CD8 T lymphocytes, macrophages, NK cells, and NK T cells. Antibody ablation of CD4 and CD8 T cells and use of NK cell-defective beige mice failed to abrogate the response to AdVmIL-12. Studies in T-cell- and B-cell-deficient severe combined immunodeficient and recombinase activating gene-2-deficient mice and T-cell-, B-cell-, and NK cell-defective severe combined immunodeficient/beige mice also failed to abrogate this response. AdVmIL-12 retained potent antitumor activity in mice with specific genetic defects in immune cellular cytotoxicity (perforin knockout mice) and costimulation (CD28 knockout mice). Use of mice with specific NK T cell deficiencies, Valpha14 T-cell receptor and CD1 knockout mice, also failed to abrogate the response to AdVmIL-12. Histological and immunohistochemical studies of AdVmIL-12-treated tumors showed extensive inhibition of neovascularization and a marked decrease in factor VIII-stained endothelial cells. Our studies indicate that the antitumor response of AdVmIL-12 is independent of direct cytotoxic cellular immunity (specifically, the function of NK T cells) and suggest that the initial mechanisms of AdVmIL-12-mediated tumor regression involve inhibition of angiogenesis.     

Inhibition of murine prostate tumor growth and activation of immunoregulatory cells with recombinant canarypox viruses.

BACKGROUND: Immunization with modified tumor cells carrying recombinant immunomodulatory genes is being explored as cancer immunotherapy. In this study, we examine whether canarypox ALVAC viruses carrying immunostimulatory cytokine genes (granulocyte-macrophage colony-stimulating factor, interleukin 2, interleukin 12, and tumor necrosis factor-alpha) can induce antitumor immunity (to rechallenge) in the RM-1 model of a highly aggressive, weakly immunogenic murine prostate cancer. METHODS: For antitumor activity studies, RM-1 murine prostate cancer cells were infected with the parental ALVAC virus or one or two recombinant ALVAC-cytokine viruses and then injected into male C57BL/6 mice. For rechallenge studies, other mice were first given an injection subcutaneously with irradiated (nonproliferating) recombinant ALVAC-infected RM-1 cells and then (10 days later) with untreated RM-1 cells. For the determination of which immune cells were required for antitumor activity, mice were immunodepleted of CD4, CD8, or natural killer (NK) NK1.1 cells with the corresponding monoclonal antibodies and were then given an injection of ALVAC-cytokine-infected RM-1 cells. For all experiments, tumor outgrowth and animal survival were monitored. RESULTS: After subcutaneous injection into mice, RM-1 cells infected with one (except ALVAC-interleukin 2) or two ALVAC-cytokine recombinants had statistically significantly greater antitumor activity than RM-1 cells infected with parental ALVAC (P<.001 for all; two-sided test). The antitumor activity of RM-1 cells infected with any two ALVAC-cytokine recombinants was greater than, but not statistically significantly different from, that of RM-1 cells infected with any one ALVAC-cytokine recombinant. NK1.1 cells were necessary for antitumor activity, but tumor-specific CD4(+) regulatory T cells were also induced that inhibited CD8(+) RM-1-specific cytotoxic T cells, resulting in the lack of immunity to a rechallenge by RM-1 cells. DISCUSSION: Canarypox viruses can transfer immunostimulatory cytokine genes into RM-1 prostate cancer cells. When such cells were injected into mice, the cytokines induced an antitumor response against this highly aggressive, weakly immunogenic tumor. This response, however, did not protect the mouse against a rechallenge with RM-1 cells because suppressor CD4(+) T cells were induced that inhibited tumor-specific CD8(+) cytotoxic T cells.