UMLS:C0017636 - FACTA Search

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Query: UMLS:C0017636 (glioblastoma)
18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of IL-2 stimulated mononuclear cells to kill the human glioblastoma cell line U251 has been investigated. Highest cytotoxic activity was generated in low cell density cultures incubated for 15 days with 250-1000 U/ml IL-2. Sub-optimal killing was noted, with cells only exposed to IL-2 for three days. Under the latter conditions, bispecific monoclonal antibodies (MoAbs) of either anti-CD3 or anti-CD16 and an anti-NCAM MoAb stimulated LAK cell activity markedly. Anti-CD16 conjugates were found more effective than anti-CD3 and (Fab')2 constructs more efficacious than those made with whole Ig molecules. Maximal stimulation of LAK cell activity was noted with bispecific MoAbs. Little effect was observed with either single or mixtures of monomeric MoAbs. Furthermore, no effect of bispecific MoAbs was observed when target cells lacked expression of NCAM. These results could be of clinical importance as it is not always feasible to screen LAK cells for optimal activity before administration to patients. Whilst bispecific MoAbs have no effect on optimally stimulated LAK cells, they are not inhibitory and can stimulate killing under sub-optimal IL-2 stimulation.
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PMID:The cytotoxic action of lymphokine activated killer cells upon the human glioma cell line U251 is stimulated by bispecific monoclonal antibody (MoAb) constructs. 151 96

Adherent lymphokine-activated killer (A-LAK) activity has been recently differentiated in recombinant interleukin-2 (rIL-2) activated PBL. A pilot study on A-LAK + rIL-2 injection into the post-surgical cavity of glioblastoma-operated patients is ongoing. Preliminary data support the feasibility of this technique, which may improve the antitumor response of the host.
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PMID:Adoptive immunotherapy with adherent lymphokine-activated killer (A-LAK) cells in glioblastoma multiforme. 196 7

Peripheral blood mononuclear cells (PBM) from normal donors and patients with recurrent glioma were activated initially for 48-72 h with phytohemagglutinin-P (PHA) and recombinant human interleukin-2 (IL-2), and then proliferated in vitro for up to 5 months with IL-2. These cells are termed mitogen-stimulated lymphokine-activated T killer (T-LAK) cells. We measured patterns of T-LAK cell growth, in vitro cytolytic activity on a panel of continuous and primary tumor cells, and the phenotypes of the cells in these cultures. Lymphocyte viability declined dramatically over the first 3-5 days; and then the remaining cells in these cultures began to divide and maintained a constant 30-36 h doubling time for long periods in vitro. Phenotyping revealed that cells in the initial few days of culture were heterogeneous, but became almost totally CD3 T cells after 7-10 days in culture. The T-LAK cells from individual normal donors and cancer patients demonstrated a non-genetically restricted cytolytic ability against a panel of both continuous cell lines and primary autologous and allogeneic glioblastoma cells in vitro. This technique provides a method of generating large numbers of autologous cytolytic T cells with non-restricted anti-tumor activity that can be derived from peripheral blood mononuclear cells.
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PMID:Generation of stimulated, lymphokine activated T killer (T-LAK) cells from the peripheral blood of normal donors and adult patients with recurrent glioblastoma. 201 99

The concentration rotary tissue culture system (Kawasumi Laboratories, Inc. Japan) was utilized to induce LAK cells from the peripheral blood lymphocytes (PBLs) of brain tumor patients. These LAK cells were administrated into the tumor cavity or cerebrospinal space of the patients. Under our culture system, the final administration of LAK cells increased tenfold of the initial PBLs, which were collected by leukapheresis. Around 4 weeks after the culture, these cells could not increase in number, with the decrease in cytotoxicity activity against Daudi and human glioblastoma (ONS-12) cells. The level of ammonium and lactate in the culture medium were comparatively kept low. IL-2 receptors were amplified with the increase in T cell population, especially helper T cells. This system may be a good tool to induce LAK cells for adoptive immunotherapy.
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PMID:[High yielding culture of LAK cells by the concentration rotary tissue culture system and its clinical application]. 261 73

Glioblastoma cells release factors (G-TsF) which inhibit T-cell proliferation. The G-TsF is a novel member of the transforming growth factor beta family and is identical to TGF beta 2. The effect of G-TsF and TGF beta 2 on the induction of LAK cell activity was investigated by culturing PBL obtained from normal blood donors and brain tumour patients in varying concentrations (50-500 U/ml) of interleukin 2 (IL2) alone or IL2 plus G-TsF/TGF beta 2 (1 ng/ml) for 4 days. Subsequent cytolytic activity was measured against autologous and allogeneic glioblastoma targets, fresh NK-resistant melanoma cells and K562 cells. G-TsF/TGF beta 2 purified from glioblastoma cell cultures and TGF beta 2 isolated from porcine platelets significantly suppressed the generation of LAK cell activity, and the inhibitory effect could be reduced by higher concentrations of IL2. The suppressive effect of TGF beta 2 was most significant during the early stages of LAK cell generation and no inhibitory effect was seen when TGF beta 2 was added directly to the cytotoxicity assay. These results suggest that human glioblastomas may exert an inhibitory influence on the generation of an immune response in vivo through the production of G-TsF/TGF beta 2, and that the inhibitory effect may be modified by IL2.
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PMID:The glioblastoma-derived T-cell suppressor factor/transforming growth factor beta 2 inhibits the generation of lymphokine-activated killer (LAK) cells. 326 91

Nine patients with recurrent glioblastoma were given autologous adherent lymphokine-activated killer (A-LAK) cells and interleukin-2 (IL-2) administered directly into the tumor cavity through an Ommaya tube placed during surgery/biopsy. The immunotherapy was well tolerated and the response rate was 33% (one complete response, two partial responses, four with stable disease and two with progressive disease). However, survival 18 months from initial diagnosis did not differ from that reported in the literature for patients treated conventionally. Serial determinations of IL-2 in the tumor cavity during the course of treatment revealed that IL-2 concentrations were sufficient to maintain lymphocyte activation. Since steroid medication was discontinued during treatment and A-LAK cells have greater antitumor activity than standard LAK cells, other factors are discussed that might explain the limited results.
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PMID:Loco-regional immunotherapy with recombinant interleukin-2 and adherent lymphokine-activated killer cells (A-LAK) in recurrent glioblastoma patients. 792 50

The immunological therapy of cancer has been proposed in a number of neoplasms (Borden, Sondel, 1989; Foon, 1989; Rosenberg, 1992) and has recently been adopted in the treatment of Central Nervous System (CNS) tumors in combination with conventional surgical and radiotherapeutical approach. In this context, loco-regional administration of immunomodulating agents (for instance in post-surgical cavity) allows to achieve much higher in situ concentrations than by systemic route. Since these treatments have potential adverse effects, careful assessment of clinical and immunological parameters in phase I trials is needed. CNS tumors disseminating via Cerebrospinal Fluid (CSF) pathways offer a stimulating opportunity for intrathecal immunotherapy. In this context, alpha-IFN and IL2 (alone or in combination with LAK cells) have been employed either loco-regionally or intrathecally (Merchant, Mc Vicar, Merchant & Young, 1992; Schiller, Hank, Storer, Borchert, Moore, Albertini, Bechhofer, Wesley, Brown, Bastin & Sondel, 1993). The rationale for the use of both these substances includes the known anti-tumor action of alpha-IFN (Mahaley, Urso, Whaley, Blue, Williams, Guaspari & Selker, 1985; Nagai, 1988) and the ability of r-IL2 to generate activated cells effective in lysing tumor cell targets (Hayes, Moore, Pierz, Chen, Da Rosso, Nirenberg & Allen, 1993). We treated 3 patients (2 affected by disseminating cerebellar medulloblastoma, 1 by disseminating thalamic glioblastoma) by intrathecal r-IL2 via recervoir. In the first 2 patients, this treatment was preceded by alpha-IFN (also intrathecally). Monitoring of immunological effects of the treatment schedule involved kinetics of CSF and serum TNF-alpha, IL2s and IL2R during the first day of r-IL2 treatment, as well as on day +2 and +4 of both r-IL2 cycles, and assessment of CSF cells, protein and CSF and PB NK cell activity and CD3-CD56+ cells during the course of all treatment cycles. We also assessed clinical and neuroradiological effects of immunotherapy.
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PMID:Immunological fluctuations during intrathecal immunotherapy in three patients affected by CNS tumours disseminating via CSF. 798 57

Adherent lymphokine-activated killer (A-LAK) cells were obtained from peripheral blood lymphocytes of patients with recurrent glioblastoma. In vitro features of A-LAK cultures were assessed in comparison to those of non-adherent lymphokine-activated killer (NA-LAK) cells of the same patients with regard to cytotoxic activity, proliferation and surface markers. Only in a minority of cases did A-LAK cells show a markedly higher cytotoxicity on K562, Daudi and allogeneic glioblastoma cells. Nevertheless, A-LAK cells proliferated significantly better than NA-LAK and contained higher percentages of CD16+, CD56+ and CD25+ cells, indicating that A-LAK cells from these patients represent a subpopulation of lymphocytes enriched for activated natural killer cells. We also investigated whether immunosuppressive factor(s) were present in the tumour bed of recurrent gliomas. To this end, samples of glioblastoma cavity fluid (GCF), which accumulates in the cavity of subtotally removed tumour, were recovered and tested for the presence of immunosuppressive activity. All GCF samples analysed were shown to inhibit in vitro proliferation and antitumour cytotoxicity of 1-week-cultured A-LAK cells in a dose-dependent manner. Such GCF activity was effectively antagonized by a transforming growth factor beta (TGF beta) neutralizing antibody, indicating the involvement of TGF beta in lymphocyte inhibition. These results show that in the tumour cavity remaining after subtotal glioblastoma resection a marked immunosuppressive activity, probably due to local release of TGF beta, is present; such activity may negatively influence the therapeutic effectiveness of local cellular immunotherapy.
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PMID:Factors, including transforming growth factor beta, released in the glioblastoma residual cavity, impair activity of adherent lymphokine-activated killer cells. 850 Jan 13

The ICAM-1 molecule plays a role in the interaction of NK cells with a variety of tumor cells, including carcinoma, melanoma and glioblastoma cells. In the present study, we analyzed the effect of IFN-gamma and TNF-alpha on both the expression of HLA-DR and ICAM-1 molecules on HGCN (Germa-2), and on their susceptibility to lysis by LAK cells. Our results show that 1,000 U/ml IFN-gamma induced a substantial increase in the expression of both ICAM-1 molecules and HLA-DR on the cell surface, while the effect of TNF-alpha on the expression of these molecules was substantially less prominent. When Germa-2 cells, previously exposed to 1,000 U/ml IFN-gamma, were employed as target cells in a 4-hour 51Cr release assay, a statistically significant increase in the lysis by LAK cells was noted. These results show that in the presence of IFN-gamma, Germa-2 tumor cells undergo modulation which affects both the expression of ICAM-1 and HLA-DR molecules as well as their susceptibility to lysis by LAK cells.
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PMID:The effect of interferon-gamma and tumor necrosis factor-alpha on the expression of ICAM-1 and HLA-DR molecules on cells of a human germ cell neoplasm and their susceptibility to lysis by lymphokine-activated killer cells. 973 34

GammadeltaT cells play a regulatory role in both primary and metastatic tumor growth in humans. The mechanisms responsible for the activation and proliferation of circulating gammadeltaT cells should be fully understood prior to their adoptive transfer to cancer patients. We have examined in vitro functional effects of interleukin-15 (IL-15) on highly purified gammadeltaT cells isolated from glioblastoma patients. GammadeltaT cells constitutively express the heterotrimeric IL-2 receptor (IL-2R) alpha betagamma, but the levels of IL-2Rbeta or gamma expression were not increased by incubation with saturating amounts of IL-15. IL-15 was shown to induce a maximal gammadeltaT cell proliferation, although at much higher concentrations (at least 2000 U/ml) than IL-2 (100 U/ml). Submaximal concentrations of IL-15 plus low concentrations of IL-2 produced an additive proliferative response. In contrast to the IL-2-induced response, this activity was completely or partially abrogated by anti-IL-2Rbeta, or anti-IL-2Rgamma antibodies, but not by anti-IL-2R alpha antibodies. Incubation of gammadeltaT cells in the presence of IL-15 resulted not only in the appearance of NK and LAK activity, but also in specific autologous tumor cell killing activity, an additive effect being seen with IL-15 and IL-2. This IL-15-induced tumor-specific activity could be significantly blocked by anti-IL-2Rgamma and anti-IL-2R-beta mAb, but not by anti-IL-2R alpha mAb. Thus, in contrast to IL-2, IL-15 activates tumor-specific gammadeltaT cells through the components of IL-2Rbeta and IL-2Rgamma, but not IL-2R alpha. These enhanced in vitro tumor-specific and proliferative responses of gammadeltaT cells seen with IL-15 suggest a rational adjuvant imunotherapeutic use of gammadeltaT cells in cancer patients.
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PMID:Interleukin-15 effectively potentiates the in vitro tumor-specific activity and proliferation of peripheral blood gammadeltaT cells isolated from glioblastoma patients. 976 18

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