UMLS:C0017638 - FACTA Search

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

Phosphorothioate oligodeoxynucleotides containing CpG motifs (CpG-ODNs) display broad immunostimulating activity and have potential applications in cancer immunotherapy. To investigate the antitumor activity of CpG-ODNs and to study the role of macrophages and lymphocytes in tumor rejection, CpG-ODN's effects on 9 L glioma cells were assessed in Fisher rats, depleted or not in macrophages, in nude mice, and in SCID mice. In nondepleted rats, intratumoral injections with 100 microg of CpG-ODNs on days 5, 12, and 19, after s.c. 9 L cell inoculations, resulted in an 84% reduction of the tumor volumes, when compared with controls injected with saline (P < 0.0001). Whereas all control animals developed tumors, more than one-third of the treated rats remained tumor free. Rejection of established glioma induced a specific long-term immunity, as cured rats were protected against a subsequent 9 L injection, but not a RG2 cell inoculation, another syngenic glioma in Fischer rats. Macrophages played a critical role in the early phase of tumor rejection, because the CpG-ODN's effects were significantly decreased in the rats depleted in macrophages, and none of the macrophage-depleted rats treated with CpG-ODNs rejected the tumor. On the contrary, both nude and SCID mice, which have normal innate immunity, showed a significant decrease of tumor volume when treated with CpG-ODNs when compared with controls. T cells were however involved in a later phase of the tumor rejection, as all nude mice eventually developed tumors despite the initial tumor growth inhibition. Altogether, these data suggest that immunostimulatory CpG-ODNs induced tumor rejections through an early activation of innate immunity and priming of a specific immune response against glioma cells.
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PMID:Implication of macrophages in tumor rejection induced by CpG-oligodeoxynucleotides without antigen. 1170 74

We evaluated the effectiveness of vascular endothelial growth factor (VEGF) blockade alone and in combination with 1-(4-amino-2-methyl-5-pyrimidinyl)methyl-3-(2-chloroethyl)-3-nitrosourea (ACNU, nimustine), a cytotoxic agent commonly used in the treatment of malignant gliomas, to eradicate tumors of human glioblastoma cell lines implanted in SCID (severe combined immunodeficiency) mice. ACNU, but not cisplatin and etoposide, elevated VEGF expression in a glioma cell line in vitro. VEGF antibody alone inhibited glioma growth in vivo as a result of angiogenesis inhibition. The combination with ACNU resulted in an additive effect for inhibition of glioma growth. ACNU also induced VEGF up-regulation in glioma tissues, which was decreased with VEGF antibody treatment. One of the mechanisms of the additive effect of the VEGF antibody and ACNU combination is the blockade of VEGF up-regulation induced by ACNU. As such, the combination of antiangiogenic therapy with conventional therapy is promising for glioma treatment in the future.
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PMID:Anti-vascular endothelial growth factor antibody and nimustine as combined therapy: effects on tumour growth and angiogenesis in human glioblastoma xenografts. 1262 27

The Herpes simplex virus 1 (HSV) thymidine kinase (tk) suicide gene together with ganciclovir (GCV) have been successfully used for the in vivo treatment of various solid tumors and for the ablation of unwanted transfused stem cells in recent clinical trials. With the aim of improving this therapeutic system, we compared the potential efficacy of adenoviral (Ad) vectors expressing enhanced tk mutants in vitro and in vivo. The previously created HSV-tk mutants dm30 and sr39, created by random sequence mutagenesis, were inserted into a standard Ad.RSV E1(-)E3(-) backbone using homologous recombination. GCV killing of Ad.HSV-tk, Ad.dm30-tk and Ad.sr39-tk was assessed in various tumor cell lines with a cell proliferation assay. Cells expressing the two TK mutants were two-to-five-fold more sensitive to GCV when compared with Ad.HSV-tk transduced cells in all cell lines tested (five human mesotheliomas, one human lung cancer, a human cervical carcinoma, a mouse fibrosarcoma, and a rat glioma line) at equal TK expression levels. Flank tumor models, including cell-mixing studies, assessed the in vivo efficacy of the engineered viruses in BALB/C and SCID mice. In all animal studies, Ad.dm30-tk and Ad.sr39-tk showed more tumor growth inhibition than Ad.HSV-tk when GCV was administered. The use of adenovirus-mediated gene transfer of both tk mutants dm30-tk and sr39-tk for cancer suicide gene therapy should provide a more effective and safer alternative to wild-type HSV-tk.
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PMID:Adenovirus-mediated gene transfer of enhanced Herpes simplex virus thymidine kinase mutants improves prodrug-mediated tumor cell killing. 1271 5

The major mechanism of tumor cell resistance to 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) is the DNA repair protein O(6)-methylguanine DNA methyltransferase (MGMT). This repair system can be temporarily inhibited by the free base O(6)-benzylguanine (BG), which depletes cellular MGMT activity and sensitizes tumor cells and xenografts to BCNU. In clinical studies, the combination of BG and BCNU enhanced the myeloid toxicity of BCNU, thereby reducing the maximum tolerated dose. We have shown previously that retroviral expression of the P140K mutant of MGMT (MGMT-P140K) in murine and human hematopoietic cells produces significant resistance of bone marrow cells to low-dose, combination BG and BCNU treatment in vivo. In the current study, we investigated the ability of bone marrow transplantation with MGMT-P140K-transduced hematopoietic cells to protect against an intensive antitumor treatment regimen of combination BG and BCNU in non-obese diabetic/severe combined immunodeficient (NOD/SCID) mice. The donor marrow cells underwent in vivo BG and BCNU selection before transplantation, allowing infusion of a highly selected population of transduced cells. Tolerance to the intensive BG and BCNU treatment was markedly improved in secondary MGMT-P140K-transplanted mice (n = 19) compared to untransplanted mice (n = 15), as indicated by blood counts and survival rate. The dose-intensified BG and BCNU therapy produced significant growth delays of glioma xenografts in MGMT-P140K-transplanted mice, extending the tumor doubling time by >40 days. These results demonstrate that MGMT-P140K-transduced bone marrow protects against BG and BCNU combination therapy in vivo and allows dose-intensified treatment of tumor xenografts.
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PMID:Hematopoietic expression of O(6)-methylguanine DNA methyltransferase-P140K allows intensive treatment of human glioma xenografts with combination O(6)-benzylguanine and 1,3-bis-(2-chloroethyl)-1-nitrosourea. 1470 73

Prostaglandin H synthase (PHS) is a key enzyme in the synthesis of prostaglandins (PGs). Recently, enhanced expression of PHS-2 in brain tumors and the correlation between the PHS-2 level and the histopathological grade of glioma has been reported. Furthermore, in vitro inhibition of glioma cell growth by a specific PHS-2 inhibitor, NS398, has been demonstrated. It has also been shown that prostaglandin E2 (PGE2) contributes to colon carcinogenesis by binding to the prostaglandin E receptor subtype EP1. We therefore evaluated the effects of NS398 and two EP1 antagonists, SC51089 and AH6809, on glioma cell lines. To evaluate mechanisms of NS398's action, two glioma cell lines, a PHS-2-positive cell line (KMG4) and a PHS-2-deficient cell line (A 172), were used. NS398 inhibited both the anchorage-dependent and -independent growth of glioma cell lines regardless of PHS-2 expression, suggesting that some PHS-2-independent mechanisms underlie the antineoplastic effect of NS398. However, the antineoplastic effect was attenuated by the addition of PGE2, which is one of the main products of PHS, suggesting the predominant mechanism is PHS-dependent. The EP1 antagonists, SC51089 and AH6809, inhibited the growth of glioma cell lines in vitro. Furthermore, NS398 or SC51089 slowed tumor growth in vivo, which was assessed using KMG4 tumor xenografts on SCID mice. PHS-2 inhibitors and EP1 antagonists might be useful in the prevention and/or treatment of glioma.
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PMID:Inhibition of human glioma cell growth by a PHS-2 inhibitor, NS398, and a prostaglandin E receptor subtype EP1-selective antagonist, SC51089. 1501 58

Current treatment of malignant glioma brain tumors is unsatisfactory. Gene therapy has much promise, but target-specific vectors are needed. Endothelial progenitor cells (EPCs) have in vivo homing specificity to angiogenic sites and are thus potential vehicles for site-specific gene therapy. However, reports of EPCs "homing" to intracranial solid tumors are lacking. We investigated EPCs' "homing" specificity using a murine intracranial glioma model. EPCs, derived from human cord blood, were labeled with a fluorogenic agent CFSE and intravenously injected into SCID mice bearing orthotopic gliomas. At 7-14 days after EPC injection, mouse brains and other vital organs were examined for distribution of transplanted EPCs. As controls, CFSE-labeled human umbilical vein endothelial cells (HUVECs) and EPCs were intravenously injected into matched glioma SCID mice (HUVEC control groups) and nontumor SCID mice (nontumor-bearing control groups), respectively. Fluorescence image analysis revealed that systemically transplanted EPCs 'homed' to brain tumors with significantly higher specificity as compared to other organs within the experimental group (P<0.001) and to anatomically matched brain sections from the control groups (P<0.001). Our study demonstrates EPCs' in vivo tropism for intracranial gliomas, with potential for cell delivery of brain tumor spatial-specific gene therapy.
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PMID:Endothelial progenitor cells' "homing" specificity to brain tumors. 1505 61

Malignant gliomas are the main brain tumors notoriously resistant to currently available therapies, since they fail to undergo apoptosis upon anticancer treatment. Recent progress on enhanced studies of ion channels involved in glioma cells shed new light on the investigation of glioma cell growth and proliferation. Here we report BmK scorpion venom, a rich resource of various ion channels blockers/modulators, induces cell death of cultured malignant glioma U251-MG cells in vitro specifically at a dose of 10 mg/ml while shows no effect on human hepatocellular carcinoma cells and Chinese hamster ovary cells. The glioma cell death was then determined as apoptosis using 4,6-diamidino-2-phenylindole staining and fluorescence-activated cell sorting analysis. After incubation with BmK venom for 32 and 40 h, 36.20% and 63.08% of U251-MG cells showed apoptosis. Furthermore, BmK venom could significantly inhibit the tumor growth in vitro, which was assessed using U251-MG tumor xenografts on severe combined immunodeficiency mice. The tumor volume of the BmK venom treated mice is nearly 1/8 of that of control after 21 days, and the tumor weight is less than half of that of control. That BmK venom induces apoptosis and inhibits growth of glioma may result from the inhibition and/or modulation of various ion channels in glioma cells.
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PMID:Scorpion venom induces glioma cell apoptosis in vivo and inhibits glioma tumor growth in vitro. 1593 10

Tumor necrosis factor-Related Apoptosis-Inducing Ligand (TRAIL) has been reported to specifically kill malignant cells but to be relatively nontoxic to normal cells. One of disadvantages to previous in vivo protocols was the need for large quantities of TRAIL recombinant protein to suppress tumor growth. To evaluate the antitumor activity and therapeutic value of the TRAIL gene, we constructed adenoviral vectors expressing the human TRAIL gene (Ad.hTRAIL) and transferred them into malignant glioma cells in vitro and tumors in vivo, as an alternative to recombinant soluble TRAIL protein. The results show that TRAIL-sensitive glioma cells infected Ad.hTRAIL undergo apoptosis through the production and expression of TRAIL protein. The in vitro transfer elicited apoptosis, as demonstrated by the quantification of viable or apoptotic cells and by the analysis of cleavage of poly (ADP-ribose) polymerase. Furthermore, in vivo administration of Ad.hTRAIL at the site of tumor implantation suppressed the outgrowth of human glioma xenografts in SCID mice. These results further define Ad.hTRAIL as an anti-tumor therapeutic and demonstrate its potential use as an alternative approach to treatment for malignant glioma.
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PMID:Antitumor activity of TRAIL recombinant adenovirus in human malignant glioma cells. 1636 20

Approaches to improve the oncolytic potency of replication-competent adenoviruses include the insertion of therapeutic transgenes into the viral genome. Little is known about the levels and duration of in vivo transgene expression by cells infected with such "armed" viruses. Using a tumor-selective adenovirus encoding firefly luciferase (AdDelta24CMV-Luc) we investigated these questions in an intracranial mouse model for malignant glioma. Luciferase expression was detected by bioluminescence imaging, and the effect of the immunosuppressive agent cyclophosphamide (CPA) on transgene expression was assessed. Intratumoral AdDelta24CMV-Luc injection led to a localized dose-dependent expression of luciferase. Surprisingly, this expression decreased rapidly during the course of 14 days. In contrast, mice injected with nonreplicating Ad.CMV-Luc demonstrated stable transgene expression. Treatment of mice with CPA in combination with AdDelta24CMV-Luc retarded the loss of transgene expression. Staining of mouse brains for inflammatory cells demonstrated decreased tumor infiltration by immune cells in CPA-treated mice. Moreover, in immunodeficient NOD/SCID mice loss of transgene expression was less rapid and not prevented by CPA treatment. Together, our data demonstrate that transgene expression and viral replication decrease rapidly after intratumoral injection of oncolytic adenovirus in mouse brains and that treatment with the immunomodulator CPA prolongs viral-mediated gene expression.
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PMID:Cyclophosphamide increases transgene expression mediated by an oncolytic adenovirus in glioma-bearing mice monitored by bioluminescence imaging. 1699 14

B7-H4, a newly discovered member of B7 family that negatively regulates T cell-mediated immunity, may facilitate tumor progression by undermining host immunity. Recent studies show that brain tumor stem-like cells (TSCs) contribute to tumorigenesis. However, the relationship between B7-H4 and the clinical behavior of brain TSCs remains unclear. In this study, we found that B7-H4 was expressed in cultured tumor cells from human gliomas (n = 5) and medulloblastomas (n = 3). Double immunostaining indicated that B7-H4 was primarily restricted to non-dividing (Ki67(-)) cultured tumor cells. Tumor cells cultured under medium conditions favoring the growth of neural stem cells were able to form primary and secondary spheres, along with expression of neural stem/progenitor cell markers. These cells differentiated into different neural lineages when cultured in differentiation medium, indicating that these cells have TSCs characteristics. Double immunostaining showed that TSCs consisted of proliferative (Ki67(+)) and quiescent (Ki67(-)) cells. We also found that B7-H4 was expressed in a small population of CD133(+) cells sorted by flow cytometry. Interestingly, both CD133(+) and CD133(-) cells were tumorigenic in SCID mice in vivo. However, CD133(+) cells-initiated glioblastomas showed a higher proliferation index, compared to CD133(-) cells-induced glioblastomas in vivo. Secondary glioma cells derived from CD133(+) or CD133(-) cell xenografts expressed B7-H4 as well. Our data suggest B7-H4 is preferentially expressed in non-dividing brain tumor cells and in a subpopulation of brain TSCs, and CD133(-) tumor cells also have the capacity to initiate brain formation in vivo.
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PMID:B7-H4 is preferentially expressed in non-dividing brain tumor cells and in a subset of brain tumor stem-like cells. 1847 83

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