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)

Alkylating agents, mechlorethamine and N-methyl-N'-nitro-N-nitrosoguanidine, induce the production of plasminogen activator in U-87MG cells, an alkylation DNA repair deficient (Mer-) human glioblastoma strain. Enzyme induction was not observed, however, in U-178MG and SH-101 cells, alkylation repair proficient (Mer+) glioblastoma strains, or in HeLa cells, which reactivated and supported well the growth of alkylation damaged adenovirus 3. In the alkylation repair defective U-87MG strain, enhanced production of plasminogen activator occurred in a narrow concentration range of treatment with either alkylating agent, causing a 20 to 50% inhibition of [3H]thymidine incorporation. Maximum plasminogen activator induction was observed between 32 and 48 h after alkylation treatment and the levels of enzyme produced were 5 to 10 times those of untreated control levels. This alkylation dependent enzyme induction required protein synthesis for it did not occur in the presence of cycloheximide. It was hence concluded that plasminogen activator induction in alkylation repair deficient human cells is caused by unrepaired DNA damage and that it may represent an eukaryotic SOS-like function. In addition, plasminogen activator induction may be useful as a sensitive assay for the identification of alkylation repair defective human tumors for which the susceptibility to alkylation chemotherapy should be expected to increase.
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PMID:Induction of plasminogen activator by alkylating agents in a repair defective human glioblastoma cell strain. 369 74

O6-methylguanine-DNA methyltransferase (MGMT) activity was measured in 68 tissue samples taken from brain. A wide range in activity among samples was observed, with all nonmalignant samples showing transferase activity (Mer+) but approximately 15% of WHO grade II low-grade astrocytomas and WHO grade IV glioblastoma multiformes lacking activity (Mer-). On average, astrocytomas and glioblastomas showed less transferase activity than either nonmalignant tissue or meningiomas. Monoclonal antibodies specific for MGMT showed both cytoplasmic and nuclear staining of Mer+ brain tumor cells in culture but no staining of Mer- cells in culture. In pathology specimens from anaplastic astrocytomas, glioblastoma multiformes, and meningiomas, antibody staining revealed both cytoplasmic and nuclear MGMT, while one sample showed little or no MGMT-specific staining. These results help explain why nitrosoureas have been among the most successful agents in treatment of brain tumors and indicate the subcellular localization for the repair activity, which may be relevant to nitrosourea resistance.
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PMID:O6-methylguanine-DNA methyltransferase in human brain tumors detected by activity assay and monoclonal antibodies. 754 44

We reported previously that the production of urokinase-type plasminogen activator receptor (uPAR) protein is greater in high-grade glioblastomas than in low-grade gliomas. Transcriptional activation of the uPAR gene or increased stability of the uPAR mRNA that encodes this protein could cause the increased production of this protein in cell lines of different grades of gliomas. We found similar half-life of uPAR mRNA of 10-12 h in glioblastoma multiforme (UWR3) and anaplastic astrocytoma (SW1783) cells. However, the human uPAR promoter was up-regulated 6-8-fold in SW1783 cells and 11-13-fold in UWR3 cells as compared with its activity in low-grade gliomas, a finding that correlates well with previous findings of increases in uPAR mRNA and protein levels in higher-grade gliomas. uPAR mRNA level was increased 11-fold over a 24-h period in low-grade glioma cell lines after treatment with phorbol myristate acetate. The region spanning -144 to -123 bp of the human uPAR promoter that contains the Sp-1 site and a PEA-3 element and an AP-1 site at -184 plays major roles in uPAR promoter activity in glioblastoma cells. Specific antibodies used in an electrophoretic mobility shift assay identified fra-1, fra-2, Jun D, and c-Jun proteins in the nuclear protein complex that bind a 51-mer containing the AP-1 consensus sequence at -184 and its flanking sequences in the uPAR promoter. We further studied the inhibition of uPAR promoter by coexpression of a transactivation domain lacking C-Jun; a dominant-negative ERK1 and ERK2 mutant and a dominant-negative C-raf in glioblastoma cell lines showed the repressed uPAR promoter activity compared with the effect of the empty expression vector. We conclude from our findings that increased transcription is the more likely mechanism underlying the increase in uPAR production in high-grade gliomas.
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PMID:Regulation of the urokinase-type plasminogen activator receptor gene in different grades of human glioma cell lines. 1123 78

GTI-2040 is a 20-mer oligonucleotide that is complementary to a coding region in the mRNA of the R2 small subunit component of human ribonucleotide reductase. In vitro studies using a number of human tumor cell lines have demonstrated that GTI-2040 decreases mRNA and protein levels of R2 in a sequence- and target-specific manner. In vivo studies have shown that GTI-2040 significantly inhibits growth of human colon tumors (adenocarcinoma), pancreatic tumors (adenocarcinoma), liver tumors, lung tumors, breast tumors (adenocarcinoma), renal tumors, ovarian tumors (adenocarcinoma), melanoma, brain glioblastoma-astrocytoma, prostatic tumors, and cervical tumors in nude and/or severe combined immunodeficient mice. Antitumor effects were not observed with an oligonucleotide containing four mismatches to the R2 sequence or with a scrambled sequence containing the same base content but not complementary to R2. This suggests that an antisense mechanism is responsible for the in vivo observations. In addition to tumor growth assays, GTI-2040 was tested in a murine model of human lymphoma. Treatment of severe combined immunodeficient mice bearing Burkitt's lymphoma with GTI-2040, but not control oligonucleotides, greatly extended the survival of mice, and survival extended well beyond the treatment period. Finally, GTI-2040 specifically inhibits metastasis of human melanoma cells to the lungs in nude mice. Taken together, the results of these studies indicate that GTI-2040 can act as a selective and specific anticancer agent against a broad range of human tumors.
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PMID:GTI-2040, an antisense agent targeting the small subunit component (R2) of human ribonucleotide reductase, shows potent antitumor activity against a variety of tumors. 1278 85

Telomerase is a ribonucleoprotein complex that elongates telomeric DNA and appears to play an important role in cellular immortalization of cancers. Because telomerase is expressed in the vast majority of malignant gliomas but not in normal brain tissues, it is a logical target for gliomaspecific therapy. The telomerase inhibitor GRN163, a 13-mer oligonucleotide N3'-->P5' thio-phosphoramidate (Geron Corporation, Menlo Park, Calif.), is complementary to the template region of the human telomerase RNA subunit hTR. When athymic mice bearing U-251 MG human brain tumor xenografts in their flanks were treated intratumorally with GRN163, a significant growth delay in tumor size was observed (P < 0.01 in all groups) as compared to the tumor size in mice receiving a mismatched oligonucleotide or the carrier alone. We also investigated biodistribution of the drug in vivo in an intracerebral rat brain-tumor model. Fluorescein-labeled GRN163 was loaded into an osmotic minipump and infused directly into U-251 MG brain tumors over 7 days. Examination of the brains revealed that GRN163 was present in tumor cells at all time points studied. When GRN163 was infused into intracerebral U-251 MG tumors shortly after their implantation, it prevented their establishment and growth. Lastly, when rats with larger intracerebral tumors were treated with the inhibitor, GRN163 increased animal survival times. Our results demonstrate that the antitelomerase agent GRN163 inhibits growth of glioblastoma in vivo, exhibits favorable intracerebral tumor uptake properties, and prevents the growth of intracerebral tumors. These findings support further development of this compound as a potential anticancer agent.
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PMID:Antitumor effects of specific telomerase inhibitor GRN163 in human glioblastoma xenografts. 1527 14

Glioblastomas account for approximately 20% of all primary brain tumors in adults. Glioblastoma multiforme (GBM) is a highly malignant tumor. In spite of advances in surgery, chemotherapy, and radiotherapy, the life expectancy of the patient with glioblastoma is approximately 11 months. To enhance glioma-specific gene delivery, we employed a 12-mer phage display peptide library to isolate phages that bind specifically to human glioma cell lines. Here, we report the isolation and functional characterization of novel glioma-specific peptides that target transgenes specifically to a wide array of human glioblastomas in vitro and in vivo. One of the isolated peptides, tentatively denoted as MG11, is demonstrated to be glioma specific and gives an in vitro-binding enrichment of more than 5-fold for glioma cells when compared with nonglioma cells. Intravenous injection of phages bearing the MG11 peptide-binding motif enables the phages to home specifically to glioma xenografts. Most significantly, when Lissamine rhodamine-labeled MG11 peptide is injected intratumorally, it targets specifically to glioma xenografts instead of non-glioma-derived xenografts. In summary, our results suggest that the MG11 peptide is able to target specifically to tumors of glial origin, which would allow the design of applications related to the diagnosis and treatment of human gliomas.
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PMID:Identification and characterization of novel human glioma-specific peptides to potentiate tumor-specific gene delivery. 1531 30

Using "one-bead one-compound" combinatorial chemistry technology, we generated random peptide libraries containing millions of 90 mum TentaGel beads, each with its own unique amino acid sequence. A cyclic random 8-mer library was screened with CAOV-3 (a human ovarian adenocarcinoma cell line) and beads with a unique ligand that bind to the cell surface receptors were coated by one or more layers of cells. These positive beads were isolated, stripped, and microsequenced. Several peptide motifs were identified from these screenings, some of which were novel and unique, e.g., cDGX(4)GX(6)X(7)c. Structure-activity relationship studies of this peptide revealed that the l-aspartate residue at position 2, the two glycines at positions 3 and 5, and the two d-cysteines at the amino and COOH terminus are critical for activity. In addition, a hydrophobic residue was preferred at position X(4), whereas amino acids at positions X(6) and X(7) were more variable. Binding of this peptide to a number of different cancer cell lines and normal cells was also determined and we observed that peptides with this motif bound preferentially to three other human ovarian cancer cell lines (ES-2, SKOV-3, and OVCAR-3) as well as a human glioblastoma cancer cell line (A172). Structural analysis of the peptides using high-resolution nuclear magnetic resonance spectroscopy revealed strong conformational similarity among all peptides with cX(1)GX(4)GX(6)X(7)c motif. Blocking study with a panel of anti-integrin antibodies strongly suggests alpha3 integrin present on these ovarian adenocarcinoma cells is the target receptor for this peptide.
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PMID:Identification of novel targeting peptides for human ovarian cancer cells using "one-bead one-compound" combinatorial libraries. 1589 45

GTI-2501 is a 20-mer oligonucleotide that is complementary to a coding region in the mRNA of R1, the large subunit of ribonucleotide reductase (RNR). In vitro studies, have demonstrated that GTI-2501 decreases mRNA and protein levels of R1 in a sequence-specific and dose-dependent manner. Furthermore, GTI-2501 inhibits the growth of human lung, liver, ovary, brain, melanoma, breast and pancreatic tumor cells in colony forming assays. In vivo studies have shown that GTI-2501 significantly inhibits growth of human colon, pancreas, lung, breast, renal, ovarian, melanoma, brain glioblastoma-astrocytoma, and prostatic tumors in CD-1 nude, Balb/c nude and/or SCID mice. GTI-2501 treatment caused total regression of human breast and renal tumor xenografts in mice. These effects are not observed with a scrambled control oligonucleotide containing the same base content but not complementary to R1. GTI-2501 specifically inhibits metastasis of human melanoma cells to the lungs in CD-1 athymic nude mice and prolongs the survival of mice bearing human lymphoma. Taken together these results suggest that an antisense mechanism of action is responsible for growth inhibition in vitro and in vivo and that GTI-2501 can act as a selective and specific anti-tumor agent.
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PMID:GTI-2501, an antisense agent targeting R1, the large subunit of human ribonucleotide reductase, shows potent anti-tumor activity against a variety of tumors. 1639 3

As the quality of microarrays is critical to successful experiments for data consistency and validity, a reliable and convenient quality control method is needed. We describe a systematic quality control method for large-scale genome oligonucleotide arrays. This method is comprised of three steps to assess the quality of printed arrays. The first step involves assessment of the autofluorescence property of DNA. This step is convenient, quick to perform, and allowed reuse of every array. The second step involves hybridization of arrays with Cy3-labeled 9-mer oligonucleotide target to assess the quality and stability of oligonucleotides. Because this step consumed arrays, one or two arrays from each batch were used to complement the quality control data from autofluorescence. The third step involves hybridization of arrays from every batch with transcripts derived from two cell lines to assess data consistency. These hybridizations were able to distinguish two closely related tissue samples by identifying a cluster of 20 genes that were differently expressed in U87MG and T98G glioblastoma cell lines. In addition, we standardized two parameters that significantly enhanced the quality of arrays. We found that longer pin contact time and crosslinking oligonucleotides at 400 mJ/cm(2) were optimal for the highest hybridization intensity. Taken together, these results indicate that the quality of spotted oligonucleotide arrays should be assessed by at least two methods, autofluorescence and 9-mer hybridization before arrays are used for hybridization experiments.
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PMID:Analysis of the quality of contact-pin fabricated oligonucleotide microarrays. 1728 78

Aiming at identification of novel peptides that can be employed for effective targeting of malignant gliomas, we used a 12-mer peptide phage display library and cultured human malignant glioma cells for phage selection. Several common phage clones emerged after 4 rounds of biopanning against the U87MG glioblastoma cell line. The most abundant phage clone VTW, expressing a sequence of VTWTPQAWFQWV, bound to U87MG cells 700-fold more efficiently than the original unselected library. The VTW phage also bound strongly to other human glioma cell lines, including H4, SW1088 and SW1783, but very weakly to normal human astrocytes and SV40-immortalized human astroglial cells. When compared to other non-glial tumor cells, the phage showed 400- to 1400-fold higher binding efficiency for U87MG cells. After linked to positively charged lysine peptides, the VTW peptide became water soluble and was able to deliver biologically active, hydrophilic beta-galactosidase into U87MG cells, with up to 90% of the cells being stained intensively blue. This peptide carrier did not show obvious protein delivery activities in the human astrocytes. Our results provide a proof of principle to the concept that peptides identified through phage display technology can be used to develop protein carriers that are capable of mediating intracellular delivery of hydrophilic macromolecules in a tumor cell-specific manner.
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PMID:A peptide-based carrier for intracellular delivery of proteins into malignant glial cells in vitro. 1863 77

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