Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0598934 (tumor growth)
58,965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dendritic cell (DC) based cancer vaccine can induce potent antitumor immunity in murine models; however, objective clinical responses have been observed only in a minority of cancer patients. To improve the antitumor effect of DC vaccine, Th1-biasing cytokine interleukin (IL) 18 and melanoma-associated antigen gp100 were cotransfected into bone marrow-derived DC (IL-18/gp100-DC), which were used as vaccine to induce the protective and therapeutic immunity in a B16 melanoma model. Immunization with IL-18/gp100-DC resulted in tumor resistance in 87.5% of the mice challenged with B16 cells; however, 12.5% and 25% of mice immunized with gp100 gene-modified DC (gp100-DC) or IL-18 gene-modified DC (IL-18-DC) were tumor free, respectively. Most importantly, IL-18/gp100-DC immunization led to the generation of potent therapeutic immunity that significantly inhibited the tumor growth and improved the survival period of mice bearing established melanoma. Immune cell depletion experiments identified that CD4(+) T cells also played an important role in the priming phase of antitumor immunity and CD8(+) T lymphocytes were the primary effectors. gp100-specific CTL response were induced most markedly in the tumor-bearing mice immunized with IL-18/gp100-DC. Administration with such vaccine also significantly increased the production of Th1 cytokine (IL-2 and interferon-gamma) and induced infiltration of inflammatory cells inside and around the tumors. In addition, natural killer cell activity was also augmented. These results indicate that immunization with DC vaccine coexpressing Th1 cytokine IL-18 and tumor antigen gene may be an effective strategy for a successful therapeutic vaccination.
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PMID:Effective induction of therapeutic antitumor immunity by dendritic cells coexpressing interleukin-18 and tumor antigen. 1293 99

Despite urgent need, no single strategy has been widely effective at controlling the growth of rapidly progressive solid tumors. We demonstrate here a potent antitumor therapy using modified bacterial DNA and toxin. Treatment of human head and neck cancer established as xenografts in athymic mice with immunostimulatory CpG oligodeoxynucleotides encapsulated in sterically stabilized cationic liposome [(CpG ODN)(SSCL)] and recombinant interleukin-13 Pseudomonas exotoxin (IL13-PE) significantly reduced the tumor growth followed by complete regression in most animals. The antitumor activity of (CpG ODN)(SSCL) was dependent on natural killer cells that infiltrated within tumors. Interestingly, IL13-PE enhanced (CpG ODN)(SSCL)-induced natural killer cell activity and cytokine production in vivo and in vitro. These data strongly suggest that a combination of innate immune activation by (CpG ODN)(SSCL) and tumor-directed targeting by IL13-PE is a novel approach for human cancer immunotherapy.
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PMID:Antitumor therapy with bacterial DNA and toxin: complete regression of established tumor induced by liposomal CpG oligodeoxynucleotides plus interleukin-13 cytotoxin. 1469 56

We have shown previously that interleukin-12 (IL-12) gene therapy induced strong antitumor effects in several syngeneic murine tumor models including 4T1 mammary adenocarcinoma. Antiangiogenic treatment with a monoclonal antibody (mAb) directed against the vascular endothelial growth factor receptor-2 (VEGFR-2) is another promising treatment approach that can cause transient suppression of tumor growth. We hypothesized that the combination of IL-12 gene therapy and anti-VEGFR-2 mAb will achieve better antitumor and antimetastatic effects against 4T1 adenocarcinoma than each treatment alone via implementation of different mechanisms. Administration of anti-VEGFR-2 mAb into BALB/c mice bearing s.c. 4T1 tumors induced significant suppression of tumor growth, as did intratumoral administration of naked IL-12 DNA. The combined treatment with anti-VEGFR-2 mAb and IL-12 DNA resulted in significantly enhanced inhibition of tumor growth as compared with each treatment alone. This combination was also effective against spontaneous lung metastases. In T-cell-deficient nude mice, both IL-12 DNA and anti-VEGFR-2 mAb were effective in suppressing tumor growth. In T-cell- and natural killer cell-deficient scid/beige mice, only anti-VEGFR-2 mAb was effective, suggesting that natural killer cells are involved in the antitumor effects induced by IL-12 DNA. In both types of immunodeficient mice, the combination of anti-VEGFR-2 mAb and IL-12 DNA was as effective in suppressing 4T1 tumor growth as anti-VEGFR-2 mAb alone. Antitumor effects of anti-VEGFR-2 mAb were associated with the inhibition of angiogenesis within the tumors, whereas the antiangiogenic effect of IL-12 gene therapy was not detected. Our results show a therapeutic benefit of combining IL-12 gene therapy and anti-VEGFR-2 mAb for cancer treatment.
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PMID:Treatment of experimental breast cancer using interleukin-12 gene therapy combined with anti-vascular endothelial growth factor receptor-2 antibody. 1529 79

The effect of low-intensity laser light on the activity of natural killer cells from healthy and tumor-bearing mice was studied. Skin in the zone of the thymus or hind limb was illuminated, the remaining body surface being screened. The illumination was carried out for 30 days, with the duration of a single exposure being 1 min and intervals between the exposures being 48 h. The effect of laser light depended on the location of the illuminated area. It was shown that the exposure of the thymus of healthy animals for 20 and 30 days leads to a significant decrease in the activity of natural killer cells. On the contrary, the illumination of the limb for 10 or 20 days increased the activity of natural killer cells; but when hind limbs were treated for 30 days, the activity of natural killer cells decreased. Whereas tumor growth increased the natural killer cell activity, the illumination of tumor-bearing mice lowered the adaptive antitumoral resistance by decreasing the activity of natural killer cells.
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PMID:[The activity of natural killer cells in healthy and tumor-bearing mice after treatment with low-intensity laser light]. 1575 10

Macrophage migration inhibitory factor (MIF) is known to play an important role in broad-spectrum inflammation and immune responses. To evaluate the role of MIF in tumor growth, we established transgenic (Tg) mice (ICR strain) driven by cytomegalovirus (CMV) enhancer and beta-actin promoter. We inoculated Tg mice in the back with murine sarcoma cell line S-180 cells. The tumor growth rate was more enhanced in Tg mice than in littermate non-Tg mice up to day 9 after tumor inoculation. Surprisingly, most tumors embedded on the back of Tg mice regressed at day 10 after inoculation and eventually disappeared. Tumor volumes of non-Tg mice incessantly increased until death. We reinoculated the Tg mice with S-180 cells, which had been recovered from the first challenge, and found that the tumor cells were completely rejected in all cases. To identify the effector cells that eradicated the tumor cells, we prepared spleen cells from tumor-bearing Tg mice and carried out cell lysis assay. The magnitude of cytolytic activity of spleen cells obtained from Tg mice was significantly higher against S-180 cells, as well as natural killer cell-sensitive YAC-1 cells, than was the activity of cells from non-Tg mice. Furthermore, we observed that CTL activity of Tg mice against S-180 cells was significantly decreased by the deletion of CD8+ T cells or NK cells. On the other hand, the deletion of CD4+ cells minimally affected the cytolytic activity. Taken together, these results suggest that MIF has the potential to promote tumor growth and angiogenesis in the early phase and, by contrast, this protein could activate CD8+ cytotoxic T cells and NK cells, leading to tumor regression.
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PMID:Evidence of dual function of macrophage migration inhibitory factor relevant to tumor progression and regression. 1594 88

The signal pathways that trigger tumor cell escape from immune surveillance are incompletely understood. Toll-like receptors (TLRs), which activate innate and adaptive immune responses, are thought to be restricted to immune cells. We show here that TLRs, including TLR4, are expressed on tumor cells from a wide variety of tissues, suggesting that TLR activation may be an important event in tumor cell immune evasion. Activation of TLR4 signaling in tumor cells by lipopolysaccharide induces the synthesis of various soluble factors and proteins including interleukin-6, inducible nitric oxide synthase, interleukin-12, B7-H1, and B7-H2, and results in resistance of tumor cells to CTL attack. In addition, lipopolysaccharide-stimulated tumor cell supernatants inhibit both T cell proliferation and natural killer cell activity. Blockade of the TLR4 pathway by either TLR4 short interfering RNA or a cell-permeable TLR4 inhibitory peptide reverses tumor-mediated suppression of T cell proliferation and natural killer cell activity in vitro, and in vivo, delays tumor growth and thus prolongs the survival of tumor-bearing mice. These findings indicate that TLR signaling results in a cascade leading to tumor evasion from immune surveillance. These novel functions of TLRs in tumor biology suggest a new class of therapeutic targets for cancer therapy.
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PMID:Toll-like receptors on tumor cells facilitate evasion of immune surveillance. 3141 49

The aim of the present work was to compare the effects of eicosapentaenoic acid (EPA) ethylester and EPA derivatives (EPAD) on tumor growth and metastasis to the lung in tumor-bearing mice. Because EPA is very unstable during long-term storage, the EPAD were subjected to accelerated testing under storage conditions of 60 +/- 5% relative humidity at 37 degrees C for 30 days. EPAD are composed of a mixture of a newly identified EPA ethylester dimer and EPA hydroxyethylester, and known EPA and EPA ethylesters. The inhibitory effects of EPAD, the EPA ethylester dimer and EPA hydroxyethylester on Matrigel-induced capillary-like network formation were stronger than the effect of EPA ethylester. The oral administration of EPAD (300 or 1000 mg/kg) inhibited angiogenesis in gels containing Matrigel supplemented with vascular endothelial growth factor (VEGF) and heparin in an in vivo model, but EPA ethylester had no effect. EPA ethylester (300 or 1000 mg/kg) or EPAD (1000 mg/kg) inhibited tumor growth in mice with subcutaneously implanted LLC. Furthermore, EPAD inhibited metastasis to the lung in mice implanted with LLC subcutaneously, but EPA had no effect. EPAD increased the CD8(+) T-cell population in the spleen compared with mice with subcutaneously implanted LLC. EPA ethylester increased the natural killer cell population in the spleen. Thus, it is suggested that the mechanisms of the antitumor and/or antimetastatic actions of EPAD and EPA ethylester involve different immune functions, and that the EPA ethylester dimer and the EPA hydroxyethylester of EPAD may contribute to these actions.
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PMID:Antitumor and antimetastatic actions of eicosapentaenoic acid ethylester and its by-products formed during accelerated stability testing. 1605 16

Negative ions are considered to have potential health benefits, but few studies have examined their effects in vivo. We studied water-generated negative ions (WNI) with respect to physical properties as well as immunologic activation and anti-tumor activity (inhibition of carcinogenesis and tumor growth) in mice. Electrically, generated negative ions (ENI) served as control. Water-generated negative ions had a long life, significantly enhanced the cytotoxic activity of natural killer cells, and significantly decreased the incidence of cancer and inhibited tumor growth. Anti-tumor effects were attributed to enhancement of natural killer cell activity. The mechanisms and applications of negative ions warrant further investigation.
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PMID:Water-generated negative air ions activate NK cell and inhibit carcinogenesis in mice. 1617 44

The interferon (IFN) protein is a cytokine with pleiotropic biological functions that include induction of apoptosis, inhibition of angiogenesis and immunomodulation. We previously examined the two antitumor mechanisms, taking advantage of the fact that IFN-alpha did not show cross-species activity in its in vivo effect. In a nude mouse subcutaneous xenograft model using human pancreatic cancer cells, the expression of human IFN-alpha effectively induced cell death of human pancreatic cancer cells, whereas mouse IFN-alpha augmented antitumor immunity by stimulation of natural killer cells. Here, we extended our investigation to a syngeneic pancreatic cancer model, so that the integrated antitumor activity of local IFN-alpha gene therapy, including the antiproliferative, proapoptotic, antiangiogeneic and immunomodulatory effects, can be evaluated rigorously. When a recombinant hamster IFN-alpha adenovirus was injected into syngeneic subcutaneous tumors of hamster pancreatic cancer (PGHAM-1) cells in Syrian hamster, tumor growth was significantly suppressed due to cell death and T cell- and natural killer cell-mediated antitumor immunity. Moreover, in this case, tumor regression was observed not only for the injected subcutaneous tumors but also for the untreated tumors both in the peritoneal cavity and at distant sites. No significant systemic toxicity was observed in the treated hamsters. Moreover, the subcutaneous rechallenge of PGHAM-1 cells was rejected in three of four cured hamsters from the initial tumor challenge. This study further demonstrated that local IFN-alpha gene therapy is a promising therapeutic strategy for pancreatic cancer, due to its multiple mechanisms of antitumor activity and its lack of significant toxicity.
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PMID:Local interferon-alpha gene therapy elicits systemic immunity in a syngeneic pancreatic cancer model in hamster. 1723 11

Beta-glucans are naturally occurring polysaccharides. These glucose polymers are constituents of the cell wall of certain pathogenic bacteria and fungi. The healing and immunostimulating properties of mushrooms have been known for thousands of years in the Eastern countries. These mushrooms contain biologically active polysaccharides that mostly belong to group of beta-glucans. These substances increase host immune defense by activating complement system, enhancing macrophages and natural killer cell function. The induction of cellular responses by mushroom and other beta-glucans is likely to involve their specific interaction with several cell surface receptors, as complement receptor 3 (CR3; CD11b/CD18), lactosylceramide, selected scavenger receptors, and dectin-1 (betaGR). beta-Glucans also show anticarcinogenic activity. They can prevent oncogenesis due to the protective effect against potent genotoxic carcinogens. As immunostimulating agent, which acts through the activation of macrophages and NK cell cytotoxicity, beta-glucan can inhibit tumor growth in promotion stage too. Anti-angiogenesis can be one of the pathways through which beta-glucans can reduce tumor proliferation, prevent tumor metastasis. beta-Glucan as adjuvant to cancer chemotherapy and radiotherapy demonstrated the positive role in the restoration of hematopiesis following by bone marrow injury. Immunotherapy using monoclonal antibodies is a novel strategy of cancer treatment. These antibodies activate complement system and opsonize tumor cells with iC3b fragment. In contrast to microorganisms, tumor cells, as well as other host cells, lack beta-glucan as a surface component and cannot trigger complement receptor 3-dependent cellular cytotoxicity and initiate tumor-killing activity. This mechanism could be induced in the presence of beta-glucans.
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PMID:Effects of beta-glucans on the immune system. 1789 34


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