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)

Tyrosine kinases are enzymes that regulate mitosis, differentiation, migration, neovascularization, and apoptosis. Their spectrum and association with specific malignancies offer multiple targets for therapeutic intervention. Chronic myelogenous leukemia (CML) represents an ideal target for a therapy using a selective inhibitor of the BCR-ABL tyrosine kinase. The 2-phenylpyrimidine derivative STI571 was rationally designed to inhibit ABL and BCR-ABL tyrosine kinase activities through competitive ATP-binding pocket interactions. Phase II data demonstrate hematologic and cytogenetic responses in interferon refractory chronic-phase, accelerated-phase and blast crisis patients. However, long-term observation is needed to confirm that response data result in prolongation of survival. STI571 is being studied in other malignancies, including leukemias characterized by expression of alternate molecular forms of BCR-ABL and those expressing protein tyrosine kinases with ATP-binding pockets structurally similar to ABL, e.g. c-kit and PDGF-R. Gastrointestinal stromal tumor (GIST) cells overexpress the stem cell factor receptor CD117, the product of the proto-oncogene c-kit. Inhibition of c-kit in vivo results in an immediate metabolic change of the tumor cells, detectable by positron emission tomography. Since c-kit overexpression is inhibited in small-cell lung cancer cell lines, a study with STI571 as second-line therapy of c-kit-positive small-cell lung cancer is in progress. Clinical studies are ongoing in malignancies associated with an enhanced activity of the PDGF-R, such as highgrade glioma, prostate cancer and leukemias with rearrangements of PDGF-R. The development of selective tyrosine kinase inhibitors is considered a promising approach for the design of new drugs. Clinical responses to STI571 in various malignancies may stimulate greater interest in the clinical use of tyrosine kinase inhibitors.
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PMID:[Selective inhibition of tyrosine kinases - a new therapeutic principle in oncology]. 1160 Aug 16

Thalidomide--removed from widespread clinical use by 1962 because of severe teratogenicity--has antiangiogenic and immunomodulatory effects, including the inhibition of tumor necrosis alpha factor. It has now returned to practice as an effective oral agent in the management of various disease states including erythema nodosum leprosum, for which it was approved by the U.S. Food and Drug Administration in 1998, and more recently certain malignancies, including multiple myeloma. Although thalidomide's mechanism of action remains incompletely understood, considerable insight has been generated by extensive preclinical studies in multiple myeloma. Moreover, clinical trials have confirmed benefit in relapsed disease, and the role of thalidomide in treating newly diagnosed patients is currently under study. Its use in other tumors is under evaluation, with promise in renal cell carcinoma, prostate cancer, glioma, and Kaposi's sarcoma. Activity has also been demonstrated in chronic graft-versus-host disease and in symptom relief as part of palliative care.
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PMID:Thalidomide: emerging role in cancer medicine. 1181 93

5-Fluorouracil (5-FU) is a potent antimetabolite used for chemotherapy of gastrointestinal (GI), breast, and head and neck malignancies. Although clinical trials have been conducted, the poor therapeutic index of 5-FU has precluded its clinical use for a number of other tumor types. It is unclear whether this lack of utility is due to problems with drug delivery or inherent insensitivity. Adenovirus (Ad) vector-mediated cytosine deaminase (CD)/5-fluorocytosine (5-FC) gene therapy has the potential to overcome pharmacokinetic issues associated with systemic 5-FU and is particularly well suited to use with tumors in which local control is paramount, such as recurrent, localized prostate cancer and malignant gliomas. In this study, the in vitro response by a panel of human tumor cell lines derived from both GI (colon, pancreas) and non-GI (prostate, glioma) tumors to 5-FU and to AdCMVCD (an Ad encoding Escherichia coli CD)/5-FC was examined. Whereas the sensitivity (IC(50)) of individual cell lines to these agents varied, no significant difference in median IC(50) for either 5-FU or AdCMVCD/5-FC was evident for the four tumor types tested (P > 0.1). The relevant contributions of Ad gene transfer efficiency and inherent 5-FU sensitivity in determining response to AdCMVCD/5-FC were then assessed. Multiple linear regression analysis revealed that whereas both factors significantly contribute to the response, inherent 5-FU sensitivity was substantially more important (beta= 0.78 versus 0.48; P < 0.001). Finally, the therapeutic efficacy of a single intratumoral injection of AdCMVCD followed by systemic 5-FC was assessed in three intracranial C.B17 severe combined immunodeficient mouse models of human glioma. AdCMVCD/5-FC efficacy was specific, virus dose-dependent, and closely paralleled in vitro 5-FU and CD/5-FC sensitivity in two of three models tested. These results reveal that glioma cells are as sensitive as GI tumor cells to the antineoplastic effects of 5-FU, identify inherent 5-FU sensitivity as an important factor in determining CD/5-FC efficacy, and confirm previous findings in rat models that demonstrate the potential clinical utility of AdCMVCD/5-FC gene therapy for gliomas.
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PMID:Intratumoral 5-fluorouracil produced by cytosine deaminase/5-fluorocytosine gene therapy is effective for experimental human glioblastomas. 1183 May 32

Bad, a proapoptotic member of the Bcl-2 family, is inactivated by phosphorylation, and this loss of activity may contribute to the malignancy of certain types of tumors such as glioblastoma and prostate cancer. To determine whether extracellular Bad can be delivered into cells via cell surface receptor binding and induce apoptosis, we genetically fused the mouse Bad gene to the gene for the translocation and receptor-binding domains of diphtheria toxin (DTTR). The purified Bad (wild-type)-DTTR protein showed cytotoxicity to human glioma cells in a dose-dependent manner. Bad phosphorylation sites at codons 112 and 136 were mutated from serine to alanine to prevent Bad inactivation by kinases and to increase the toxicity of Bad. The Bad (S112A S136A)-DTTR protein was at least 5 times more toxic than Bad (wild-type)-DTTR with an IC(50) of 5 x 10(-8) M. The Bad (S112A S136A)-DTTR protein altered the subcellular distribution of Bcl-X(L), indicating that it enters the cell cytoplasm and binds Bcl-X(L). Bad (S112D S136A)-DTTR, mutated to mimic phosphorylation of Bad, showed lower toxicity than either Bad (wild-type)-DTTR or Bad (S112A S136A)-DTTR, additionally indicating that Bad-DTTR must bind Bcl-X(L) to stimulate apoptosis. We conclude that extracellular Bad can be delivered into cells via the transport domain of a bacterial toxin and may be used to induce apoptosis.
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PMID:Extracellular Bad fused to toxin transport domains induces apoptosis. 1188 16

Novartis has launched imatinib, an inhibitor of tyrosine kinases, including Bcr-Abl, for the treatment of chronic myeloid leukemia (CML). Imatinib selectively inhibits activation of target proteins involved in cellular proliferation. It also inhibits c-KIT tyrosine kinase activity and is equally effective against both wild-type and constitutively active enzyme. Close correlation between in vitro responses to IFNalpha and imatinib suggested that it may be an alternative to IFNalpha therapy for chronic-phase CML, and the compound has the advantage that it can be administered orally. Futhermore, Bcr-Abl-expressing cells treated with imatinib undergo apoptosis. Imatinib also has potential for the treatment of other cancers that express these kinases, including acute lymphocytic leukemia and certain solid tumors. In February 2002, the FDA approved imatinib for the treatment of inoperable and/or metastatic malignant gastrointestinal stromal tumors (GIST); in September 2001, launch for the indication was expected in 2002. In November 2000, imatinib was granted Orphan Drug status in Japan for the target indication of Philadelphia chromosome-positive leukemia. By May 2001, imatinib had entered phase II trials for small cell lung cancer, prostate cancer and glioma. Imatinib has been launched in more than 35 countries, including the US, Brazil, Switzerland, Australia and the UK. By December 2001, the drug had also been launched in Japan. The drug is marketed as Gleevec (imatinib mesilate) in the US, and Glivec (imatinib) outside the US. In August 2001, Deutsche Bank estimated sales of SFr 233 million in 2001, rising to SFr 850 million in 2005; while Bear Stearns & Co predicted sales of SFr 250 million in 2001, rising to SFr 800 million in 2005.
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PMID:Imatinib. Novartis. 1205 2

Telomerase is a distinctive candidate for targeted gene therapy of malignant gliomas, because the vast majority of malignant gliomas express telomerase activity while normal brain tissues do not. Recently, we developed a telomerase-specific expression system of caspase-8 gene using the promoter of the human telomerase reverse transcriptase (hTERT) gene. However, the transcriptional activity of hTERT-181 promoter (a 181-base pair [bp] region upstream of the transcription start site) was relatively lower in malignant glioma cells than in other tumors such as prostate cancer cells. To establish the hTERT/caspase-8 construct as a novel therapy for malignant gliomas, we need to increase the transcriptional activity of the hTERT promoter in malignant glioma cells. In the present study, we demonstrate that the transcriptional activity of hTERT-378 promoter (a 378-bp region) was 2- to 40-fold higher in hTERT-positive malignant glioma cells (A172, GB-1, T98G, U87-MG, U251-MG, and U373-MG) than that of hTERT-181. We further demonstrate that by using the hTERT-378/caspase-8 construct, apoptosis was restricted to malignant glioma cells, and was not seen in astrocytes or fibroblasts lacking hTERT. Moreover, the growth of subcutaneously established U373-MG tumors in mice was significantly inhibited by seven daily intratumoral injections of hTERT-378/caspase-8 construct and its inhibitory effect persisted during 3 additional weeks without additional treatment. These results suggest that the telomerase-specific expression of caspase-8 under hTERT-378 promoter is a novel targeting approach for the treatment of telomerase-positive malignant gliomas.
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PMID:Caspase-8 gene therapy using the human telomerase reverse transcriptase promoter for malignant glioma cells. 1206 35

The case is reported of a man, aged 68, with a right-sided temporal glioblastoma multiform and a left sided chiasmal anaplastic glioma, as well as an occipital tumor, presumably of glial nature. The patient had a complete prostatectomy of adenocarcinoma a year before. The coincidence of multicentric gliomas and prostate cancer is briefly discussed.
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PMID:Case history: multicentric glioma with involvement of the optic chiasm. 1244 27

Radioiodide uptake (RAIU) in thyroid follicular epithelial cells, mediated by a plasma membrane transporter, sodium iodide symporter (NIS), provides a first step mechanism for thyroid cancer detection by radioiodide injection and effective radioiodide treatment for patients with invasive, recurrent, and/or metastatic thyroid cancers after total thyroidectomy. NIS gene transfer to tumor cells may significantly and specifically enhance internal radioactive accumulation of tumors following radioiodide administration, and result in better tumor control. NIS gene transfers have been successfully performed in a variety of tumor animal models by either plasmid-mediated transfection or virus (adenovirus or retrovirus)-mediated gene delivery. These animal models include nude mice xenografted with human melanoma, glioma, breast cancer or prostate cancer, rats with subcutaneous thyroid tumor implantation, as well as the rat intracranial glioma model. In these animal models, non-invasive imaging of in vivo tumors by gamma camera scintigraphy after radioiodide or technetium injection has been performed successfully, suggesting that the NIS can serve as an imaging reporter gene for gene therapy trials. In addition, the tumor killing effects of 131I after NIS gene transfer have been demonstrated in in vitro clonogenic assays and in vivo radioiodide therapy studies, suggesting that NIS gene can also serve as a therapeutic agent when combined with radioiodide injection. Better NIS-mediated tumor treatment by radioiodide requires a more efficient and specific system of gene delivery with better retention of radioiodide in tumor. Results thus far are, however, promising, and suggest that NIS gene transfer followed by radioiodide treatment will allow non-invasive in vivo imaging to assess the outcome of gene therapy and provide a therapeutic strategy for a variety of human cancers.
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PMID:A transporter gene (sodium iodide symporter) for dual purposes in gene therapy: imaging and therapy. 1247 51

Common polymorphisms in DNA repair genes may alter protein function and an individual's capacity to repair damaged DNA; deficits in repair capacity may lead to genetic instability and carcinogenesis. To establish our overall understanding of possible in vivo relationships between DNA repair polymorphisms and the development of cancer, we performed a literature review of epidemiological studies that assessed associations between such polymorphisms and risk of cancer. Thirty studies of polymorphisms in OGG1, XRCC1, ERCC1, XPC, XPD, XPF, BRCA2, and XRCC3 were identified in the April 30, 2002 MEDLINE database (National Center for Biotechnology Information. PubMed Database: http://www.ncbi.nlm.nih.gov/entrez). These studies focused on adult glioma, bladder cancer, breast cancer, esophageal cancer, lung cancer, prostate cancer, skin cancer (melanoma and nonmelanoma), squamous cell carcinoma of the head and neck, and stomach cancer. We found that a small proportion of the published studies were large and population-based. Nonetheless, published data were consistent with associations between: (a) the OGG1 S326C variant and increased risk of various types of cancer; (b) the XRCC1 R194W variant and reduced risk of various types of cancer; and (c) the BRCA2 N372H variant and increased risk of breast cancer. Suggestive results were seen for polymorphisms in other genes; however, small sample sizes may have contributed to false-positive or false-negative findings. We conclude that large, well-designed studies of common polymorphisms in DNA repair genes are needed. Such studies may benefit from analysis of multiple genes or polymorphisms and from the consideration of relevant exposures that may influence the likelihood of cancer in the presence of reduced DNA repair capacity.
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PMID:Polymorphisms in DNA repair genes and associations with cancer risk. 1249 39

Gliomas are the most common tumors of the central nervous system and have a grave prognosis. Deletion of chromosome 10p15 is one of the most common chromosomal alterations in gliomas. Recently, a candidate tumor suppressor gene, KLF6, which is mapped to chromosome 10p, was found to be frequently mutated in prostate cancer. KLF6 is a zinc finger transcription factor and transactivates p21/WAF1/CIP expression. To elucidate the role of genetic alterations of KLF6 in gliomas, we analyzed the 4 exons of the gene by direct DNA sequencing in 155 gliomas. Of these, mutations of KLF6 were found in 9 of 76 (11.8%) glioblastomas multiforme, 2 of 28 (7.1%) anaplastic astrocytomas, 2 of 36 (5.5%) low-grade diffuse astrocytomas and in none of the 15 oligodendrogliomas. All 13 mutations were located in the transactivation domain and most of them affected either serine residues or codons next to serine residues. Of the 13 cases with KLF6 mutation, loss of heterozygosity (LOH) at the KLF6 locus was inferred from the LOH displayed by the flanking microsatellite markers in 11 cases. We conclude that mutations of the KLF6 gene play a role in the pathogenesis of astrocytic gliomas.
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PMID:KLF6, a putative tumor suppressor gene, is mutated in astrocytic gliomas. 1523 47

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