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:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Knowledge about lymphokine-activated killer (LAK) cell infiltration and LAK cell cytotoxicity is essential to improve the effectiveness of LAK cell therapy against gliomas. In the present study, organotypic multicellular spheroids (OMS) of glioma tissue were used as a culture model to study the effects of LAK cells on gliomas. Compared to tumour cell lines and spheroids derived from tumour cell lines, OMS have several advantages with respect to preservation of tumour cell heterogeneity and the maintenance of the tumour architecture, e.g. capillaries and extracellular matrix. Four glioma specimens, obtained at surgery, were cultured directly on agarose to form OMS, which were then co-cultured with either autologous LAK cells or autologous non-activated peripheral blood lymphocytes (PBLs). After various time periods of co-cultivation, the OMS were fixed and examined both histologically and immunocytochemically. The present results showed that LAK cells infiltrated the OMS completely within 24 h of co-cultivation and severe cellular damage was observed, whereas PBLs infiltrated the OMS poorly and there was only marginal cellular damage. The present study indicates that OMS of gliomas provide an experimental model to investigate the infiltration and cytotoxicity of LAK cells on glioma tissue in vitro.
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PMID:Cytolytic effects of autologous lymphokine-activated killer cells on organotypic multicellular spheroids of gliomas in vitro. 863 34

With the aim of developing an effective immunotherapy for malignant glioma, glioma cells were incubated with tumor necrosis factor-alpha (TNF-alpha) to increase their susceptibility to lysis by lymphokine-activated killer (LAK) cells. Treatment with exogenous TNF-alpha induced the expression of intercellular adhesion molecule-1 (ICAM-1) on the surface of glioma cells. In addition, the cytolytic activity of LAK cells toward exogenous TNF-alpha treated glioma cells was significantly greater than LAK cell activity toward untreated glioma cells. This increase in cytolytic activity was blocked by anti-ICAM-1 monoclonal antibodies (MAb). Furthermore, co-treatment with a bifunctional antibody (BFA) composed of anti-CD3 (UCHT1) and antiglioma (G-22) antibodies synergistically increased the cytolytic activity of LAK cells towards TNF-alpha-treated glioma cells. These results indicate that a combination of exogenous TNF-alpha and anti-CD3/antiglioma BFA may provide an effective modified adoptive immunotherapy for patients with malignant glioma.
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PMID:Cytolysis of malignant glioma cells by lymphokine-activated killer cells combined with anti-CD3/antiglioma bifunctional antibody and tumor necrosis factor-alpha. 866 24

Ten patients with recurrent malignant primary brain neoplasms were treated with adoptive immunotherapy using lymphokine-activated killer (LAK) cells and interleukin-2 (IL-2). Nine patients had supratentorial glioma and they received multiple intratumoral instillations of LAK cells through reservoir-catheter system or burrhole. The other patients with disseminated subarachnoid metastases from posterior fossa medulloblastoma received immunotherapy via lumbar subarachnoid route. A partial and transient clinical response was observed in two patients. following the therapy, and a cystic transformation of the essentially solid tumour was noted on the CT scans of these two patients. No significant clinical or radiological response to the treatment was observed in the remaining 8 patients. The results of this preliminary study reveal limitations of the regional intratumoral adoptive immunotherapy using currently available techniques and provide sufficient evidence of its effectiveness to warrant further investigations.
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PMID:Adoptive immunotherapy using lymphokine-activated killer (LAK) cells and interleukin-2 for recurrent malignant primary brain tumors. 869 35

Human malignant gliomas are rather resistant to all current therapeutic approaches including surgery, radiotherapy and chemotherapy as well as antibody-guided or cellular immunotherapy. The immunotherapy of malignant glioma has attracted interest because of the immunosuppressed state of malignant glioma patients which resides mainly in the T-cell compartment. This T-cell suppression has been attributed to the release by the glioma cells of immunosuppressive factors like transforming growth factor-beta (TGF-beta) and prostaglandins. TGF-beta has multiple effects in the immune system, most of which are inhibitory. TGF-beta appears to control downstream elements of various cellular activation cascades and regulates the expression of genes that are essential for cell cycle progression and mitosis. Since TGF-beta-mediated growth arrest of T-cell lines results in their apoptosis in vitro, glioma-derived TGF-beta may prevent immune-mediated glioma cell elimination by inducing apoptosis of tumor-infiltrating lymphocytes in vivo. T-cell apoptosis in the brain may be augmented by the absence of professional antigen-presenting cells and of appropriate costimulating signals. Numerous in vitro studies predict that tumor-derived TGF-beta will incapacitate in vitro-expanded and locally administered lymphokine-activated killer cells (LAK-cells) or tumor-infiltrating lymphocytes. Thus, TGF-beta may be partly responsible for the failure of current adoptive cellular immunotherapy of malignant glioma. Recent experimental in vivo studies on non-glial tumors have corroborated that neutralization of tumor-derived TGF-beta activity may facilitate immune-mediated tumor rejection. Current efforts to improve the efficacy of immunotherapy for malignant glioma include various strategies to enhance the immunogenicity of glioma cells and the cytotoxic activity of immune effector cells, e.g., by cytokine gene transfer. Future strategies of cellular immunotherapy for malignant glioma will have to focus on rendering glioma cell-targeting immune cells resistent to local inactivation and apoptosis which may be induced by TGF-beta and other immunosuppressive molecules at the site of neoplastic growth. Cytotoxic effectors targeting Fas/APO-1, the receptor protein for perforin-independent cytotoxic T-cell killing, might be promising, since Fas/APO-1 is expressed by glioma cells but not by untransformed brain cells, and since Fas/APO-1-mediated killing in vitro is not inhibited by TGF-beta.
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PMID:The failure of current immunotherapy for malignant glioma. Tumor-derived TGF-beta, T-cell apoptosis, and the immune privilege of the brain. 886 71

We have investigated the anti-tumor activity of ex vivo activated and expanded T cells which had been sensitized in vivo to one of two different syngeneic rat glioma cell lines; D74 or RT-2. Rats were sensitized by inoculation of irradiated tumor cells into each hind foot pad. After 10 days, the tumor-draining lymph node (DLN) from each popliteal region was excised and prepared as a single cell suspension. Tumor-DLN lymphocytes were next activated overnight in RPMI-1640 medium containing 10% fetal bovine serum (FBS), Bryostatin-1 (5 nM), ionomycin (1 microM), and 20 U human recombinant interleukin-2 (IL-2) per ml. Culture for seven days in RPMI-1640 supplemented with FBS and IL-2 resulted in approximately 100-fold expansion of the lymphocyte population. Both D74- and RT-2-sensitized T cells constitutively secreted tumor necrosis factor-alpha, and both lymphocyte populations produced comparable amounts of the cytokine when co-cultured with either glioma cell line. Neither D74- and RT-2-sensitized effectors constitutively secreted gamma-interferon (gamma-IFN), but both populations produced gamma-IFN when exposed to either glioma cell line in vitro. D74-sensitized T cells released significantly more gamma-IFN than the RT-2 DLN lymphocytes. In vitro Chromium-release assays indicated that RT-2-sensitized T cells were more cytotoxic for RT-2 targets than for the D74 line and that D74-sensitized effectors were also more cytotoxic for RT-2 targets. To assess in vivo therapeutic efficacy, rats who had been inoculated intradermally with RT-2 cells three days earlier received an intravenous injection of RT-2- or D74-sensitized DLN cells (10(6) cells/gram body weight) expanded after activation with Bryostatin-1 and ionomycin or an equal number of lymphokine-activated killer (LAK) cells. Tumor diameters were measured daily and revealed that injection of glioma-sensitized lymphocytes led to the elimination of tumor while treatment with LAK cells had no therapeutic benefit. These results indicate, that at least for these two glioma lines, gamma-IFN release, rather than in vitro cytotoxicity, was a better predictor for in vivo immunotherapeutic efficacy of the glioma-sensitized, expanded T cells.
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PMID:Ex vivo expansion of tumor-draining lymph node cells using compounds which activate intracellular signal transduction. II. Cytokine production and in vivo efficacy of glioma-sensitized lymphocytes. 904 60

A 26-year-old man with anaplastic glioma in the left frontoparietal lobe survived for 9 years and 9 months after combined therapy, including subtotal resection, postoperative irradiation, and chemotherapy. The tumor recurred and he received immunotherapy using lymphokine-activated killer (LAK) cells. At the last LAK cell infusion, infection of the Ommaya reservoir occurred, but subsided after antibiotics were administered. Follow-up neuroimaging showed no recurrence of the tumor. Review of the surgical specimens found that the original diagnosis of glioblastoma was inconclusive, although the tumor is considered to be a type of anaplastic glioma.
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PMID:Long-term survival in a young patient with anaplastic glioma. 938 6

The effect of transforming growth factor-beta (TGF-beta) secreted by glioblastoma (T98G) cells on the secretion of interferon-gamma (IFN-gamma) by lymphokine-activated killer (LAK) cells stimulated with tumor cells was investigated in cocultures of LAK and Daudi cells supplemented with T98G culture supernatant, T98G culture supernatant preincubated with anti-TGF-beta 1 and anti-TGF-beta 2 neutralizing antibodies, anti-TGF-beta 1 and anti-TGF-beta 2 antibodies, or natural human TGF-beta 1 or recombinant human TGF-beta 2. LAK cells were incubated with anti-TGF-beta 1 and anti-TGF-beta 2 antibodies, and with T98G cells of which the supernatant contained both active and latent forms of TGF-beta 1 and TGF-beta 2, with or without neutralizing antibodies. Addition of the supernatant from T98G cells to LAK/Daudi culture caused inhibition of IFN-gamma secretion by LAK cells. The inhibition was abolished by pretreatment of the supernatants with anti-TGF-beta antibodies. Addition of TGF-beta 1 and TGF-beta 2 to the LAK/Daudi culture inhibited IFN-gamma secretion by LAK cells in a dose-dependent manner. Addition of anti-TGF-beta antibodies to the LAK culture resulted in increased IFN-gamma secretion. T98G cells failed to stimulate LAK cells to secrete more IFN-gamma. Addition of anti-TGF-beta antibodies to the LAK-T98G culture resulted in increased IFN-gamma secretion by LAK cells. These results suggest that most malignant glioma cells which secrete high levels of TGF-beta can inhibit IFN-gamma secretion by LAK cells even after tumor cell stimulation.
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PMID:Transforming growth factor-beta inhibits interferon-gamma secretion by lymphokine-activated killer cells stimulated with tumor cells. 942 Apr 30

Interleukin-12 (IL-12), originally called natural killer cell stimulatory factor or cytotoxic lymphocyte maturation factor, has potential for use as an immunomodulator in cancer therapy because it significantly retards the growth of some murine tumors. In this study, we analyzed the antitumor effects of lymphocytes stimulated in vitro with both recombinant IL-2 (rIL-2) and rIL-12. When IL-12 was added to mouse splenocytes (SPCs) or human peripheral blood monocytes (PBMCs) incubated with IL-2 for > 4 days, IL-2-induced cytotoxicity against glioma cells was augmented. In contrast, IL-12 inhibited IL-2-induced lymphokine-activated killer (LAK) cell activity when added concurrently to cultures. The concentration of IL-10 induced by IL-12 increased in the supernatant of human PBMCs costimulated with IL-2 and IL-12. Endogenous IL-10 augmented the cytotoxicity of SPCs stimulated with IL-2 or IL-12 or both. However, tumor-bearing mice treated with PBMCs stimulated with both IL-2 and IL-12 did not survive longer than those treated with PBMCs stimulated with IL-2 alone (LAK cells).
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PMID:Antitumor activity of killer cells stimulated with both interleukin-2 and interleukin-12 on mouse glioma cells. 1033 84

Human glioma cell line, Onda 10 produces TGF-beta1. TGF-beta1 has a biological role for the immunosuppression of the host. We have investigated whether suppression of TGF-beta1 on human glioma cell enhanced the susceptibility to lymphokine-activated killer (LAK) cells. In vitro, susceptibility to LAK cells on Onda 10 cell is augmented by retroviral gene transfection with antisense TGF-beta1. Nude mice bearing Onda 10 cells transduced with antisense TGF-beta1 gene has a longer life span compared to mice carrying that of sense TGF-beta1 gene or vector alone. The cytotoxic activity of LAK cells induced from spleen cells of mice carrying antisense TGF-beta1 gene transduced cells is higher against Onda 10 cell than that of LAK cells from mice carrying vector alone transduced cells. Also, antisense TGF-beta1 gene transduced cells are much more sensitive to LAK cells compared to Onda 10. These suggest that the augmented host systemic immunity in mice is one of the mechanisms of the reduced tumorigenicity of antisense TGF-beta1 gene transduced cells and that the increased systemic immunity could be ascribed to the increased immunogenicity of the tumor cells. The gene therapy for malignant glioma with antisense TGF-beta1 gene is expected to be promising.
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PMID:Suppression of TGF-beta1 in human gliomas by retroviral gene transfection enhances susceptibility to LAK cells. 1044 68

We report the successful treatment of a patient with recurrent malignant glioma with adoptive cellular immunotherapy. The patient is a young adult with recurrent progressive disease refractory to aggressive multi-modality therapy including repetitive surgical resection, radiation, radiosurgery and chemotherapy. He received multiple courses of local administration of autologous lymphokine-activated killer (LAK) cells in combination with a low dose of interleukin-2 (IL-2) through an Ommaya reservoir-catheter system. The side-effects of this treatment were limited and manageable. The patient achieved a complete remission, as demonstrated by MRI and confirmed by glucose-positron emission tomography (PET) imaging 11 months after initiation of immune therapy. Twenty-six months later, the patient is still in remission with improving performance status. Adoptive cellular immunotherapy utilizing autologous LAK cells with low dose IL-2 appears to be a safe and effective therapy for a subset of patients with primary, recurrent or progressive malignant glioma following conventional therapy.
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PMID:Treatment of refractory recurrent malignant glioma with adoptive cellular immunotherapy: a case report. 1141 98


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