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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Angiogenesis is crucial to the growth of malignant gliomas. Therefore, antiangiogenic therapy represents a new, promising therapeutic modality for malignant gliomas. This study was designed to define the malignant
glioma
cases most suitable for antiangiogenic therapy in humans and to demonstrate the efficacy of antiangiogenic therapy in animals. Protein expression of the most potent angiogenic factor, vascular endothelial growth factor (VEGF), and its specific natural inhibitor, soluble Flt-1, as well as vessel architecture, including vessel density, area, and diameter, was evaluated in human malignant
glioma
samples (24 glioblastomas, 13 anaplastic astrocytomas). Among these, VEGF >1000ng/ml, VEGF/soluble Fltl ratio >1, vessel density >30, and vessel area >7% were prognostic factors for malignant gliomas. Based on these results, we performed three different antiangiogenic experiments targeted to inhibit VEGF expression in a human malignant
glioma
(U87) mouse model: anti-VEGF neutralized antibody intraperitoneal injection;
interferon-beta
intramusclar injection; and transfection of an endogenous nonspecific angiogenesis inhibitor, thrombospondin-1, into
glioma
cells caused inhibition of VEGF secretion and/or mRNA expression and resulted in
glioma
growth inhibition of 70%, 84%, and 50%, respectively, compared with control. We conclude that malignant gliomas with high degrees of VEGF expression and vessel areas are good candidates for antiangiogenic therapy, especially that designed to inhibit VEGF expression.
...
PMID:Angiogenesis and antiangiogenic therapy for malignant gliomas. 1809 5
Life sciences and computer technologies have begun to create new medical fields such as pharmacogenomics, nutrinogenomics, and genetic medicines (genetic diagnosis and gene therapy). In gene therapies for malignant brain tumors, suicide gene therapies using herpes simplex virus-thymidine kinase gene and ganciclovir, and immuno-gene therapies using cytokine genes have been developed. Recently, we made a gene therapy protocol of our own, which used cationic multilamellar liposomes entrapped with
interferon-beta
(
IFN-beta
) gene as a vector and we started clinical trial of
IFN-beta
gene therapy for patients with malignant
glioma
in April 2000. Until now, five patients received the treatment and then they are under evaluation on safety and usefulness. Here the authors introduce present and prospect of gene therapy for malignant brain tumors.
...
PMID:[Gene therapy for malignant glioma]. 1577 47
Exogenously added human
interferon-beta
(HuIFN-beta) protein possesses a remarkable antiproliferative activity in human
glioma
and melanoma. Endogenous HuIFN-beta protein, which is produced by its gene transfer using cationic liposomes, has much more effective antiproliferative activity against these tumors, even in cells resistant to exogenously added HuIFN-beta protein. As the first step to elucidate the possible difference in antiproliferative mechanisms between exogenous and endogenous HuIFN-beta protein, we here investigated the relationship between the intracellular level of its mRNA and susceptibility to exogenously added HuIFN-beta protein. In this study, we used seven human
glioma
cell lines (SK-MG-1, SK-MG-4, SK-AO2, U87MG, U251SP, U251MG and T98) and one human melanoma cell line (MMAN). At first, we examined the relationship between spontaneous expression of HuIFN-beta mRNA and susceptibility to exogenously added HuIFN-beta protein (50 IU/ml) in human
glioma
cells and then confirmed a significant correlation between them. Next, we confirmed that administration of 0-100 IU/ml exogenously added HuIFN-beta protein upregulated the HuIFN-beta mRNA in a dose-dependent manner using the RT-PCR technique and that the HuIFN-beta mRNA was suppressed by siRNA for HuIFN-beta in SK-MG-1 and MMAN cells. Furthermore, we confirmed that the siRNA for HuIFN-beta significantly suppressed the antiproliferative effect of SK-MG-1 cells treated with 10-100 IU/ml HuIFN-beta protein and MMAN cells with 25 and 50 IU/ml HuIFN-beta protein. We found this phenomenon in another human
glioma
cell line, U87MG cells, as well. This finding would suggest that susceptibility to exogenously added HuIFN-beta protein is related to the amount of intracellular HuIFN-beta mRNA in human
glioma
and melanoma cells.
...
PMID:Susceptibility to exogenously added interferon-beta protein depends on intracellular interferon-beta mRNA level in human glioma cells. 1634 29
This chapter outlines the current clinical application of interferon for treatment of brain tumor, especially
glioma
. Since approved as a therapeutic drug for brain tumor originally produced in Japan,
interferon-beta
has been reported to be effective when it was used alone, in combination with chemo-radiotherapy (ACNU/MCNU as a nitrosourea derivative chemodrug, and radiation for 60 Gy totally). Recently, the regimen of combination with
interferon-beta
have been improved to obtain a higher efficacy rate. For example, as a fundamental study, temozolomide is an enthusiastic chemodrug to enhance the anti-tumor effect of
interferon-beta
when it is combined, pre-clinical and clinical trial will be scheduled. As for
interferon-beta
gene therapy by means of liposome as ad drug delivery system, already clinical trial has been performed and clinical safety and effectiveness have been proved, and it is expected that newly development in the field of gene therapy will be established and improvement of therapeutic results for malignant brain tumor will be achieved.
...
PMID:[Glioma]. 1683 52
Temozolomide (TMZ) is a DNA methylating agent that has shown promising antitumor activity against high grade
glioma
.
Interferon-beta
(
IFN-beta
) is known to have antiproliferative and antiangiogenic activities. The aim of this study was to elucidate whether an antiglioma effect could be potentiated by the combination of TMZ and
IFN-beta
. In vitro, the combination of these drugs suppressed the proliferative and migratory activities, as well as enhance of the apoptosis and cell cycle (S phase) arrest of U-87 cells more efficiently than TMZ or
IFN-beta
alone.
IFN-beta
exerted a potent inhibitory effect on the proliferation of human umbilical vein endothelial cells (HUVEC); however, no additive or synergistic effect was observed with the addition of TMZ. To determine in vivo effect, nude mice bearing intracerebral U-87 xenograft inoculation were treated with intraperitoneal administration of PBS, TMZ (15 mg/kg for 3 days),
IFN-beta
(2x10(5) IU for 15 days), and a TMZ +
IFN-beta
combination. The combined treatment (median 62.0+/-8.6 days, P=0.0005) was observed to significantly increase the survival of the animals compared to treatment with PBS (median 30.0+/-2.5 days), TMZ (median 41.0+/-3.5 days) or
IFN-beta
(mean 36.0+/-2.5 days). These results suggest that antiglioma activity can be enhanced by the combination of TMZ and
IFN-beta
, providing the possibility for a new strategy development in the management of malignant
glioma
.
...
PMID:Potentiation of antiglioma effect with combined temozolomide and interferon-beta. 1708 46
A 21-year-old man presented with extraneural metastases to the peritoneum, pleura, bone marrow, lymph nodes, and other organs from a pulvinar high grade
glioma
. He had undergone a shunt operation and three tumor removals during a 6-year period. He also received radiotherapy and adjuvant chemotherapy with 1-(4-amino-2-methyl-5-pyrimidinyl)methyl-3-(2-chloroethyl)-3-nitrosourea hydrochloride and
interferon-beta
. Two and a half years after the last surgery, extraneural metastasis to the peritoneal cavity was discovered. He died 13 months after the occurrence of extraneural metastases and 10 years after the initial diagnosis. Autopsy revealed tumor masses in the peritoneum, pleura, bone marrow, lymph nodes, and other organs, but no recurrent tumor of the primary lesion or metastases to other areas in the central nervous system. Systemic metastases from primary intracranial tumors are rare, but are likely to become more frequent as the prognosis of patients with brain tumors improves and the duration of survival lengthens.
...
PMID:Extraneural metastasis of high grade glioma without simultaneous central nervous system recurrence: case report. 1758 81
Interferon-beta
(
IFN-beta
) is a pleiotropic cytokine with antitumoral activity. In an effort to improve the therapeutic index of
IFN-beta
by providing local, sustained delivery of
IFN-beta
to gliomas, the safety and biological activity of a human
IFN-beta
(hIFN-beta)-expressing adenovirus vector (Ad.hIFN-beta) was evaluated in patients with malignant
glioma
by stereotactic injection, followed 4-8 days later by surgical removal of tumor with additional injections of Ad.hIFN-beta into the tumor bed. Eleven patients received Ad.hIFN-beta in cohorts of 2 x 10(10), 6 x 10(10), or 2 x 10(11) vector particles (vp). The most common adverse events were considered by the investigator as being unrelated to treatment. One patient, who was enrolled in the cohort with the highest dose levels, experienced dose-limiting, treatment-related Grade 4 confusion following the post-operative injection. Ad.hIFN-beta DNA was detected within the tumor, blood, and nasal swabs in a dose-dependent fashion and hIFN-beta protein was detectable within the tumor. At the highest doses tested, a reproducible increase in tumor cell apoptosis in post-treatment versus pre-treatment biopsies with associated tumor necrosis was observed. Direct Ad.hIFN-beta injection into the tumor and the surrounding normal brain areas after surgical removal was feasible and associated with apoptosis induction.
...
PMID:A phase I trial of Ad.hIFN-beta gene therapy for glioma. 1818 Jul 70
The poor prognosis for patients with aggressive or metastatic tumors and the toxic side effects of currently available treatments necessitate the development of more effective tumor-selective therapies. Stem/progenitor cells display inherent tumor-tropic properties that can be exploited for targeted delivery of anticancer genes to invasive and metastatic tumors. Therapeutic genes that have been inserted into stem cells and delivered to tumors with high selectivity include prodrug-activating enzymes (cytosine deaminase, carboxylesterase, thymidine kinase), interleukins (IL-2, IL-4, IL-12, IL-23),
interferon-beta
, apoptosis-promoting genes (tumor necrosis factor-related apoptosis-inducing ligand) and metalloproteinases (PEX). We and others have demonstrated that neural and mesenchymal stem cells can deliver therapeutic genes to elicit a significant antitumor response in animal models of intracranial
glioma
, medulloblastoma, melanoma brain metastasis, disseminated neuroblastoma and breast cancer lung metastasis. Most studies reported reduction in tumor volume (up to 90%) and increased survival of tumor-bearing animals. Complete cures have also been achieved (90% disease-free survival for >1 year of mice bearing disseminated neuroblastoma tumors). As we learn more about the biology of stem cells and the molecular mechanisms that mediate their tumor-tropism and we identify efficacious gene products for specific tumor types, the clinical utility of cell-based delivery strategies becomes increasingly evident.
...
PMID:Stem and progenitor cell-mediated tumor selective gene therapy. 1836 24
A multicenter phase I clinical trial, namely, Integrated Japanese Multicenter Clinical Trial: A Phase I Study of
Interferon-beta
and Temozolomide for
Glioma
in Combination with Radiotherapy (INTEGRA Study), is being conducted for patients with high-grade
glioma
in order to evaluate the safety, feasibility and preliminary clinical effectiveness of the combination of
interferon-beta
and temozolomide. The primary endpoint is incidence of adverse events. The secondary endpoints are progression-free survival time and overall survival time. In addition, objective tumor response will be evaluated in a subpopulation of patients with the measurable disease. The reduction rate of tumor will be calculated according to Response Evaluation Criteria In Solid Tumors for measurable tumors as determined by magnetic resonance imaging. Subsequently, the overall response will be evaluated based on the results of measurable and non-measurable tumors. Ten newly diagnosed and 10 recurrent patients will be enrolled in this study.
...
PMID:A multicenter phase I trial of interferon-beta and temozolomide combination therapy for high-grade gliomas (INTEGRA Study). 1884 25
Human
interferon-beta
(
IFN-beta
) is known to exhibit pleiotropic biological activities including antitumor effects. On the other hand, temozolomide (TMZ), an oral bioavailable alkylating agent with excellent tolerability, has demonstrated efficacy and has become a key therapeutic agent in patients with malignant gliomas; however, its survival benefit remains unsatisfactory. More recent studies have indicated that there might be favorable therapeutic interactions between
IFN-beta
and TMZ, although the therapeutic advantages of such a combination have not yet been fully explored. The main aim of the present study was to determine whether an antitumor effect could be potentiated by a combination of
IFN-beta
and TMZ. The antitumor effect of and cell sensitivity to
IFN-beta
and TMZ and the synergistic potential of
IFN-beta
and TMZ in combination were evaluated in six malignant
glioma
cell lines. Correlations among the MGMT methylation status, quantitative level of MGMT mRNA, MGMT protein expression and the antitumor effect of these agents were also evaluated, since one of the most prominent resistance mechanisms to TMZ involves the DNA repair protein MGMT. The cell growth inhibitory effects of
IFN-beta
and TMZ on all tumor cell lines were observed in a dose-dependent manner, and the human malignant
glioma
-derived cell lines differed in their sensitivity to TMZ. The MGMT status, including promoter hypermethylation, quantitative mRNA expression and protein expression, was strongly correlated with TMZ sensitivity. A synergistic cell growth inhibitory effect and down-regulated MGMT mRNA levels were significantly observed when a clinically achievable CNS dose of
IFN-beta
was combined with TMZ, as compared to treatment with
IFN-beta
or TMZ alone in TMZ-resistant T98G cells. Furthermore, significant amounts of endogenous
IFN-beta
protein were detected in TMZ-treated T98G cells by ELISA. These results suggest that the clinical therapeutic efficacy of TMZ might be improved by a combination with
IFN-beta
in malignant gliomas unmethylated at the MGMT gene. The data provide an experimental basis for future strategies in TMZ chemotherapy, although further studies are needed to determine the detailed role of combined
IFN-beta
and TMZ chemotherapy in increasing tumor sensitivity.
...
PMID:Effect of IFN-beta on human glioma cell lines with temozolomide resistance. 1951 61
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