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Target Concepts:
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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Matrix metalloproteinases have been implicated to play a vital role in
glioma
invasion as they degrade extracellular matrix to facilitate the subsequent migration of tumor cells into the surrounding brain tissue. The cytokine Interleukin-10 (IL-10) was detected recently in
glial tumors
in vivo. Expression of specific IL-10 mRNA as well as blood serum levels of IL-10 in
glioma
patients increased with malignancy suggesting a functional role of IL-10 in
glioma
progression. Moreover,
glioma
cell migration in vitro was enhanced in the presence of IL-10. We therefore investigated the expression of the matrix metalloproteinases (MMPs) stromelysin-1 (MMP-3), 72-kDa collagenase (MMP-2), 92-kDa collagenase (MMP-9), matrilysin (MMP-7) and the human macrophage metalloelastase (MMP-12). In addition, a possible relation between exposure of
glioma
cells to IL-10 and invasiveness of these cells due to MMP expression was analyzed. Experiments with Matrigel coated Boyden chambers revealed a pronounced dose dependent effect of IL-10 on
glioma
invasiveness. The synthetic MMP-inhibitor
Marimastat
markedly reduced cell invasion in the Boyden chambers confirming the significance of MMPs in the process of invasion. Subsequently, the expression level of MMPs and the serine protease uPA was investigated in 7
glioma
cell lines (U373, GaMG, U251, GHE, SNB19, U138 and D54) by RT-PCR. In all but one cell line no enhancement of MMP expression by IL-10 was detected. Matrilysin in U373 cells was the only protease found to be upregulated in the presence of IL-10 dependent on cell density. The present data suggest that IL-10 related effects on the invasive properties of the cell lines are not directly mediated by an upregulation of matrix metalloproteinase expression.
...
PMID:Expression of matrix metalloproteinases in human glioma cell lines in the presence of IL-10. 989 93
Marimastat
(BB-2516) is the first orally bioavailable matrix metalloproteinase inhibitor to have entered clinical trials in the field of oncology. It has excellent bioavailability and has completed Phase I, II and some Phase III trials. In Phase I studies, which recruited patients with various malignancies, the main toxicity observed was mild to severe joint and muscle pain seen in > 60% of patients receiving a dose of marimastat > 50 mg b.i.d. The symptoms were reversible on discontinuation of the drug and their incidence has been reduced by using marimastat 10 mg b.i.d. In a number of Phase II studies in a variety of tumours, serum tumour markers were used as surrogate determinants of efficacy. Results were interpreted as indicating activity, but this has not yet translated into improved survival in the Phase III studies, which have been completed in pancreatic or gastric carcinoma and
glioma
. It is likely that these drugs will be most effective in the setting of minimal tumour volume such as in adjuvant treatment or maintenance therapy following response to standard cytotoxics. Therefore, the analysis of Phase III studies in small cell lung cancer (SCLC) where this hypothesis has been tested is awaited with interest.
Marimastat
can be safely co-administered with conventional cytotoxics and radiotherapy and Phase III studies using these approaches are currently ongoing.
...
PMID:Marimastat: the clinical development of a matrix metalloproteinase inhibitor. 1109 61
Metalloproteinases are membrane-bound proteins that play a role in the cellular responses to antiglioma therapy. Previously, it has been shown that treatment of
glioma
cells with temozolomide (TMZ) and radiation (XRT) induces the expression of metalloproteinase 14 (MMP14). To investigate the role of MMP14 in gliomagenesis, we used several chemical inhibitors which affect MMP14 expression. Of all the inhibitors tested, we found that
Marimastat
not only inhibits the expression of MMP14 in U87 and U251
glioma
cells, but also induces cell cycle arrest. To determine the relationship between MMP14 inhibition and alteration of the cell cycle, we used an RNAi technique. Genetic knockdown of MMP14 in U87 and U251
glioma
cells induced G2/M arrest and decreased proliferation. Mechanistically, we show that TMZ and XRT regulated expression of MMP14 in clinical samples and in vitro models through downregulation of microRNA374. In vivo genetic knockdown of MMP14 significantly decreased tumor growth of
glioma
xenografts and improved survival of
glioma
-bearing mice. Moreover, the combination of MMP14 silencing with TMZ and XRT significantly improved the survival of
glioma
-bearing mice compared to a single modality treatment group. Therefore, we show that the inhibition of MMP14 sensitizes tumor cells to TMZ and XRT and could be used as a future strategy for antiglioma therapy.
...
PMID:Inhibition of MMP14 potentiates the therapeutic effect of temozolomide and radiation in gliomas. 2415 18
MMP14 (MT1-MMP) is a cell membrane-associated proteinase of the extracellular matrix, whose biological roles vary from angiogenesis to cell proliferation and survival. We recently found a direct correlation between MMP14 expression levels in brain tumors of
glioma
patients and the disease progression. By using gene silencing as an experimental approach we found that MMP14 knockdown decreases production of pro-angiogenic factors such as VEGF and IL8 and thereby suppresses angiogenesis in
glioma
tumors. Although the clinical relevance of MMP14 down-regulation and its possible implications for
glioma
therapy in humans remain unclear, we observed a significant improvement in animal survival upon down-regulation of MMP14 in murine intracranial
glioma
xenografts infected with MMP14 shRNA-expressing CRAd. We further found that down-regulation of MMP14 in gliomas by combinational treatment with CRAd-S-5/3 and
Marimastat
, a chemical inhibitor of metalloproteinases, augments suppression of pro-angiogenic factors, caused by the replication-competent adenovirus. We also demonstrated that delivery of MMP14-targeting shRNA by a fiber-modified adenoviral vector to the
glioma
cells effectively suppresses their proliferation in vitro and in vivo. Thus our data indicate that inhibition of MMP14 expression in tumors in combination with
glioma
virotherapy could be effectively utilized to suppress angiogenesis and neovascularization of
glioma
tumors by decreasing production of pro-angiogenic factors.
...
PMID:MT1-MMP silencing by an shRNA-armed glioma-targeted conditionally replicative adenovirus (CRAd) improves its anti-glioma efficacy in vitro and in vivo. 2605 95
