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)

The expression of granulocyte colony-stimulating factor (G-CSF) mRNA was studied in human non-hematopoietic tumors, including 18 cases of lung cancers 10 cases of stomach cancers, three cases of glioblastomas, and one case each of breast phyllode sarcoma, thyroid cancer, and hepatocellular carcinoma. Northern blot analysis detected G-CSF mRNA in two of the lung cancer cases, in one of the glioblastoma cases, and in both the breast phyllode sarcoma and hepatocellular carcinoma cases. Since G-CSF receptors were not detected on the tumor cells by 125I-G-CSF binding assay, G-CSF autocrine loop are probably not involved in the growth of these G-CSF-producing tumors. Interestingly, granulocyte-macrophage colony-stimulating factor (GM-CSF) mRNA was concomitantly expressed in most of these G-CSF-producing tumors. No major gene deletions or rearrangements of G-CSF and GM-CSF genes were demonstrated by Southern blot analysis in the tumors expressing G-CSF and GM-CSF mRNAs except for one of the glioblastomas (G3) in which one chromosome 17 allele was deleted. Although the mechanism of the concomitant expression of G-CSF and GM-CSF mRNA is unknown, relatively high frequency of this phenomenon suggests the presence of common transcriptional factors acting on regulatory regions of G-CSF and GM-CSF genomes.
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PMID:Expression of granulocyte and granulocyte-macrophage colony-stimulating factors by human non-hematopoietic tumor cells. 170 53

Activities of pyrimidine nucleoside phosphorylase in brain tumors were measured and their relationship to a clinical course of the patients was investigated. Pyrimidine nucleoside phosphorylase is said to exist more quantitatively in malignant tumors such as Sarcoma 180, Ehrlich ascites carcinoma, Walker 256, and hepatoma, and very little in normal tissues. In brain tumors the activities were measured by bioassay and compared to that of Sarcoma 180. When the activity of Sarcoma 180 was expressed to be 100%, those of brain tumors were as follows: ten cases of normal brain less than 8.5; six cases of glioblastoma 39.3 +/- 30.7; five cases of astrocytoma 22.0 +/- 13.8; five cases of meningioma 22.4 +/- 13.7; two cases of oligodendroglioma 8.1 and 11.3; two cases of sarcoma 94.3 and 145.4; chordoma 48.0; ependymoblastoma 3.7; plexus papilloma 22.5; parotid cancer 43.4; ten cases of metastatic brain tumors from lung cancer 61.5 +/- 41.6; two cases from breast cancer 28.0 and 68.8; that from thyroid cancer 10.0; that from gastric cancer 13.5; malignant melanoma 77.2. In 12 cases of gliomas (glioblastoma, astrocytoma, oligodendroglioma) the mean activity was highest in glioblastoma (39.3), followed by astrocytoma (22.0) and oligodendroglioma (9.7). The postoperative survival time became shorter in gliomas with the higher activities. In metastatic brain tumors from lung, breast, and gastric cancer, the average time from the diagnosis of primary cancer to brain metastasis was shorter in cases with high activities and longer in cases with low activities.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Activities of pyrimidine nucleoside phosphorylase in brain tumors and antitumor effect of 5'-DFUR]. 622 41

Cowden disease, a dominantly inherited syndrome characterized by a variety of proliferative lesions and predisposition to breast and thyroid cancer, has recently been linked to the polymorphic marker D10S215 on chromosome segment 10q23. Loss of heterozygosity in prostate cancer is linked to the same marker, whereas loss of heterozygosity in glioblastoma, endometrial cancer, and other malignancies also localizes to this region. Most recently, a putative tumor suppressor gene (PTEN/MMAC1) has been identified in the region between D10S215 and an adjacent, more telomeric marker (D10S541) and was found to be altered in breast cancers, prostate cancers, and glioblastomas. We examined 22 invasive breast cancers for loss of heterozygosity in the 10q23 region and found loss in 41% (9/22). There were two distinct regions of loss, including one near the D10S541 marker, with an approximately equal frequency of deletion in each. The observed pattern of deletion is consistent with the presence of a tumor suppressor gene between D10S215 and D10S541. Most of the poorly differentiated carcinomas in the case collection showed loss of heterozygosity in the region near D10S215, suggesting that this loss correlates with a poor prognosis.
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PMID:Sporadic breast cancers exhibit loss of heterozygosity on chromosome segment 10q23 close to the Cowden disease locus. 949 29

Serial analysis of gene expression (SAGE) is a powerful tool that allows digital analysis of overall gene expression patterns. SAGE provides quantitative and comprehensive expression profiling in a given cell population. Because SAGE does not require a preexisting clone, it can be used to identify and quantitate new as well as known genes. It works by isolating short fragments of genetic information from the genes expressed in the cell being studied. These short sequences, called SAGE tags, are linked together for efficient sequencing. SAGE is particularly well suited for organisms whose genome is not completely sequenced, because it does not require a hybridization probe for each transcript and allows new genes to be discovered. New modifications of SAGE now permit the analysis of gene expression in cell sub-populations or micro-anatomic structures, providing access to unexplored transcriptomes of normal and disease biology. Data derived using the SAGE technology have been used to identify tumor markers for a variety of cancers, including gastrointestinal cancer, lung and thyroid cancer, breast and ovarian cancer, neuroblastoma and glioblastoma, prostate cancer, and renal cell carcinoma. In this review we present an outline of the method and updated information on the applications of SAGE technology to various cancers.
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PMID:Serial analysis of gene expression (SAGE): application in cancer research. 1517 83

Mutations in the genes for isocitrate dehydrogenase 1 (IDH1) and isocitrate dehydrogenase 2 (IDH2) have been recently identified in glioblastoma. In the present study, we investigated IDH1 and IDH2 mutations in follicular thyroid cancer (FTC) and anaplastic thyroid cancer (ATC), with the latter, like glioblastoma, having a rapidly aggressive and lethal clinical course. By direct genomic DNA sequencing, we analyzed exon 4 of the IDH1 and IDH2 genes that harbored the mutation hot spots codon 132 and 172 of the two genes in glioblastoma, respectively, in 12 thyroid cancer cell lines, 20 FTC, and 18 ATC tumor samples. A novel homozygous G367A IDH1 mutation, resulting in a G123R amino acid change in codon 123, was identified in a case of ATC. A previously described IDH1 V71I mutation was found in a case of FTC and a case of ATC and no mutations were found in the cell lines. The overall prevalence of mutations was thus 1/20 (5%) in FTC and 2/18 (11%) in ATC. We did not find mutation in the IDH2 gene in these thyroid cancer cell lines and tumor samples. Sequence alignment analysis of 16 species revealed that the novel IDH1 G123R mutation was located in a highly conserved region, raising the possibility of a serious functional consequence as could also be predicted by the occurrence of a positively charged amino acid from this mutation. To test this, we created a G123R mutant by site-directed mutagenesis and demonstrated a decreased enzymatic activity of IDH1, similar to the expected reduction in the enzymatic activity of the previously described R132H IDH1 mutant measured as a control. Thus, functionally relevant IDH1 mutations can also occur in thyroid cancer, particularly ATC, suggesting a potential tumorigenic role of the IDH1 system that could represent a new therapeutic target for thyroid cancer.
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PMID:Identification and functional characterization of isocitrate dehydrogenase 1 (IDH1) mutations in thyroid cancer. 2017 Nov 78

The somatic IDH1(R132) mutation in the isocitrate dehydrogenase 1 gene occurs in high frequency in glioma and in lower frequency in acute myeloid leukemia and thyroid cancer but not in other types of cancer. The mutation causes reduced NADPH production capacity in glioblastoma by 40% and is associated with prolonged patient survival. NADPH is a major reducing compound in cells that is essential for detoxification and may be involved in resistance of glioblastoma to treatment. IDH has never been considered important in NADPH production. Therefore, the authors investigated NADPH-producing dehydrogenases using in silico analysis of human cancer gene expression microarray data sets and metabolic mapping of human and rodent tissues to determine the role of IDH in total NADPH production. Expression of most NADPH-producing dehydrogenase genes was not elevated in 34 cancer data sets except for IDH1 in glioma and thyroid cancer, indicating an association with the IDH1 mutation. IDH activity was the main provider of NADPH in human normal brain and glioblastoma, but its role was modest in NADPH production in rodent brain and other tissues. It is concluded that rodents are a poor model to study consequences of the IDH1(R132) mutation in glioblastoma.
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PMID:Differential activity of NADPH-producing dehydrogenases renders rodents unsuitable models to study IDH1R132 mutation effects in human glioblastoma. 2152 85

Mutations in cytosolic isocitrate dehydrogenase 1 (IDH1) or its mitochondrial homolog IDH2 can lead to R(-)-2-hydroxyglutarate (2HG) production. To date, mutations in three active site arginine residues, IDH1 R132, IDH2 R172 and IDH2 R140, have been shown to result in the neomorphic production of 2HG. Here we report on three additional 2HG-producing IDH1 mutations: IDH1 R100, which is affected in adult glioma, IDH1 G97, which is mutated in colon cancer cell lines and pediatric glioblastoma, and IDH1 Y139. All these new mutants stereospecifically produced 2HG's (R) enantiomer. In contrast, we find that the IDH1 SNPs V71I and V178I, as well as a number of other single-sample reports of IDH non-synonymous mutation, did not elevate cellular 2HG levels in cells and retained the wild-type ability for isocitrate-dependent NADPH production. Finally, we report the existence of additional rare, but recurring mutations found in lymphoma and thyroid cancer, which while failing to elevate 2HG nonetheless displayed loss of function, indicating a possible tumorigenic mechanism for a non-2HG-producing subset of IDH mutations in some malignancies. These data broaden our understanding of how IDH mutations may contribute to cancer through either neomorphic R(-)-2HG production or reduced wild-type enzymatic activity, and highlight the potential value of metabolite screening in identifying IDH-mutated tumors associated with elevated oncometabolite levels.
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PMID:Identification of additional IDH mutations associated with oncometabolite R(-)-2-hydroxyglutarate production. 2199 44

VB-111 is an engineered antiangiogenic adenovirus that expresses Fas-c in angiogenic blood vessels and has previously been shown to have significant antitumor activity in vitro and in vivo in Lewis lung carcinoma, melanoma, and glioblastoma models. To evaluate the efficacy of VB-111 in thyroid cancer, we conducted in vivo xenograft nude mouse studies using multiple thyroid cancer-derived cell lines models. VB-111 treatment resulted in 26.6% (P = 0.0596), 34.4% (P = 0.0046), and 37.6% (P = 0.0249) inhibition of tumor growth in follicular, papillary and anaplastic thyroid cancer models, respectively. No toxicity was observed in any model. All tumor types showed a consistent and significant reduction of CD-31 staining (P < 0.05), reflecting a reduction of angiogenic activity in the tumors, consistent with the intended targeting of the virus. A phase 2 clinical trial of VB-111 in patients with advanced differentiated thyroid cancer is ongoing.
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PMID:Antitumor Activity of VB-111, a Novel Antiangiogenic Virotherapeutic, in Thyroid Cancer Xenograft Mouse Models. 2270 65

There will be over half a million cancer-related deaths in the United States in 2012, with lung cancer being the leader followed by prostate in men and breast in women. There is estimated to be more than one and a half million new cases of cancer in 2012, making the development of effective therapies a high priority. As tumor immunologists, we are interested in the development of immunotherapies because the immune response offers exquisite specificity and the potential to target tumor cells without harming normal cells. In this review, we highlight the current advances in the field of immunotherapy and the current work being completed by laboratories at University of Colorado School of Medicine in multiple malignancies, including breast cancer, lung cancer, melanoma, thyroid cancer, and glioblastoma. This work focuses on augmenting the anti-tumor response of CD8 T cells in the blood, lymph nodes, and tumors of patients, determining biomarkers for patients who are more likely to respond to immunotherapy, and identifying additional anti-tumor and immunosuppressive cells that influence the overall response to tumors. These collaborative efforts will identify mechanisms to improve immune function, which may elucidate therapeutic targets for clinical trials to improve patient health and survival.
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PMID:Influence of human immune cells on cancer: studies at the University of Colorado. 2294 61

Radiation-induced spinal cord gliomas are extremely rare. Since the first case was reported in 1980, only six additional cases have been reported.; The radiation-induced gliomas were related to the treatment of Hodgkin's lymphoma, thyroid cancer, and medullomyoblastoma, and to multiple chest fluoroscopic examinations in pulmonary tuberculosis patient. We report a case of radiation-induced spinal cord glioblastoma developed in a 17-year-old girl after a 13-year latency period following radiotherapy for nasopharyngeal rhabdomyosarcoma. MRI findings of our case are described.
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PMID:Spinal cord glioblastoma induced by radiation therapy of nasopharyngeal rhabdomyosarcoma with MRI findings: case report. 2297 36

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