Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
 30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Searching for amplifications in low grade and high grade gliomas we observed an interesting correlation between the recurrence and progression of astrocytic low grade gliomas and the amplification of the STK15 gene located in the chromosomal region 20q13. Chromosome copy gains in this region have been reported previously in astrocytic gliomas and glioma cell lines and in many cancer types including breast, colorectal and ovarian cancers. The putative serine/threonine kinase STK15 has been reported to be amplified and overexpressed in breast cancer cell lines and colorectal cancer. Another candidate gene located in this region is PTPN1, a protein tyrosine phosphatase non-receptor type 1 that might play a role in cell cycle control. We used comparative PCR for quantitative DNA analysis to search for STK15 and PTPN1 amplification in gliomas previously characterized by CGH. Five out of 16 tumors (31%) of different WHO grade (1x grade II, 1x grade III, 3x grade IV) showed DNA amplification of STK15 whereas we did not detect amplification of PTPN1. We hypothesize that amplification of the STK15 gene may be a non-random genetic alteration in human gliomas playing a role in the genetic pathways of tumorigenesis.
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PMID:The putative serine/threonine kinase gene STK15 on chromosome 20q13.2 is amplified in human gliomas. 1288 93

Increasing evidence points at an important function of Vitamin D metabolites for growth regulation in various tissues, including MM. Using array CGH, amplification of 24-OHase was recently detected as a likely target oncogene of the amplification unit 20q13.2 in breast cancer cell lines and tumors. Additionally, amplification of 1alpha-OHase has been reported in human malignant glioma. Using immunohistochemistry, we have now detected nuclear Vitamin D receptor (VDR) immunoreactivity in primary cutaneous malignant melanoma (MM), indicating that Vitamin D metabolites may be of importance for the growth regulation in these tumors. Using Southern analysis, we have analyzed MM and metastases for evidence of amplification of 1alpha-OHase or 24-OHase genes. Our results do not support the hypothesis that amplification of 1alpha-OHase or 24-OHase genes may be of importance for pathogenesis or progression of MM.
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PMID:No evidence for amplification of 25-hydroxyvitamin D-1alpha-OHase (1alpha-OHase) or 1,25-dihydroxyvitamin D-24-OHase (24-OHase) genes in malignant melanoma (MM). 1522 66

Gliomas are the most frequent primary brain tumors and comprise a group of morphologically, biologically and clinically heterogeneous neoplasms. The different glioma types are associated with distinct genetic aberrations, which may provide useful information for tumor classification as well as prediction of prognosis and response to therapy. To facilitate the molecular classification of gliomas, we established a genomic microarray that consists of bacterial artificial chromosome (BAC) and P1-derived artificial chromosome (PAC) clones representing tumor suppressor genes, proto-oncogenes and chromosomal regions frequently gained or lost in gliomas. In addition, reference clones distributed evenly throughout the genome in approximately 15 Mbp intervals were spotted on the microarray. These customized microarrays were used for matrix-based comparative genomic hybridization (matrix CGH) analysis of 70 gliomas. Matrix CGH findings were validated by molecular genetic analyses of candidate genes, loss of heterozygosity studies and chromosomal CGH. Our results indicate that matrix CGH allows for the sensitive and specific detection of gene amplifications as well as low-level copy number gains and losses in clinical glioma samples. Furthermore, molecular classification based on matrix CGH data closely paralleled histological classification and was able to distinguish with few exceptions between diffuse astrocytomas and oligodendrogliomas, anaplastic astrocytomas and anaplastic oligodendrogliomas, anaplastic oligodendrogliomas and glioblastomas, as well as primary and secondary glioblastomas. Thus, matrix CGH is a powerful technique that allows for an automated genomic profiling of gliomas and represents a promising new tool for their molecular classification.
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PMID:Molecular classification of human gliomas using matrix-based comparative genomic hybridization. 1588 May 82

Gliomas are common and frequently malignant tumors of the central nervous system. Recurrent allelic losses of chromosome 22 have been reported in gliomas, indicating tumor-suppressor genes at this location. However, the target genes are still unknown. We applied a high resolution tiling-path chromosome 22 array to a series of 50 glioblastoma samples, with the aim of investigating the underlying abnormalities in both constitutional and tumor-derived DNA. We detected hemizygous deletions in 28% of the tumors (14 of 50), with monosomy 22 (10 of 50) being the predominant pattern. The distribution of overlapping hemizygous deletions delineated two putative tumor-suppressor loci (11.1 and 3.08 Mb in size) across 22q. Most strikingly, we identified two distinct loci affected by regional gains. Both alterations were of germ-line origin and were unique to samples from patients affected with tumors. Analysis of these two amplified regions revealed the presence of two interesting candidate genes: TOP3B and TAFA5. The TOP3B gene encodes a protein that seems to function in the unlinking of parental strands at the final stage of DNA replication and/or in the dissociation of structures in mitotic cells that could lead to recombination. The TAFA5 gene belongs to a novel family of proteins with similarity to chemokines and brain-specific expression. The role of the identified candidate loci should be studied further. Our results demonstrated the power of array-CGH to determine DNA copy number alterations in the context of germ-line- and tumor-specific aberrations.
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PMID:Chromosome 22 tiling-path array-CGH analysis identifies germ-line- and tumor-specific aberrations in patients with glioblastoma multiforme. 1594 96

Glioblastomas, the most frequent and malignant glial tumors, are known to be phenotypically heterogeneous. A low fraction of glioblastomas is associated with specific chromosomal losses at 1p and 19q, which are commonly found in oligodendrogliomas and are generally considered to be a primary event in the development of these tumors. Subsequent progression of oligodendroglial tumors appears to be triggered by additional molecular features underlying the transition to anaplastic oligodendroglioma and glioblastoma multiforme (GBM) such as deletions of 9p and 10q, and alterations of CDKN2A (p16), which is located at 9p21. These findings strengthen the view that GBM on rare occasions may develop from oligodendroglial differentiated cells. In the present study, we evaluated the newly established MI-4 glioblastoma cell line, which displays 1p and 19q specific alterations targeting preferential regions of allelic loss in glial neoplasms, by array-CGH and fluorescence in situ hybridization (FISH) analyses that were combined to obtain a high resolution map of targeted chromosome rearrangements and copy number changes throughout the genome. Genome-wide and chromosome 19 full coverage array-CGH analysis of the MI-4 cell line revealed that in this particular cell line, 1p-specific loss, including the CDKN2 (p18) gene, is not accompanied by loss of the previously described 19q13.3 tumor suppressor candidate region. Interestingly, the array-CGH (CGHa) profile showed an increase in copy number along most of 19q including the AKT2 oncogene and the KLKs gene family, which have previously been shown to be amplified in pancreatic carcinomas and upregulated in several tumors, respectively. The concomitant 1p partial loss and chromosome 19 alterations, with the +7 and -10-specific GBM markers associated with homozygous deletion of 9p21.3 including CDKN2A (p16), are distinct features of the glioblastoma MI-4 cell line, illustrating its origin from an olidodendroglial tumor. Based on these results, we conclude that the MI-4 glioblastoma cell line might function as a model system for investigations into the behavior of a defined oligodendroglioma subtype.
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PMID:Identification of oligodendroglioma specific chromosomal copy number changes in the glioblastoma MI-4 cell line by array-CGH and FISH analyses. 1610 84

Oligodendrogliomas have been the focus of considerable interest over the last decade, ever since they were recognized as chemosensitive tumors. However, the histological diagnosis remains highly controversial and unsatisfactory. Meanwhile, our understanding of glioma oncogenesis improved greatly. Gliomas are the consequence of specific genetic or epigenetic alterations - activations of oncogenes and inactivation of tumor suppressor genes - resulting in the disruption of critical cellular pathways and leading to phenotypic changes. Such genetic information complements the existing WHO morphological classification and, more importantly, provides additional prognostic markers. Indeed, 1p/19q deletion has been correlated with chemosensitivity in oligodendrogliomas, and is becoming more and more widely used in clinical practice. There is little doubt that emerging techniques, such as CGH-array and gene profiling will be very helpful in clinical practice for refining both classification and therapeutic indications of oligodendroglial tumors.
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PMID:[Molecular biology of oligodendroglial tumors]. 1629 70

Aberrant RAS/RAF signaling has been reported to be important for many tumor types including gliomas. Activation of the RAS/RAF pathway can result from oncogenic mutations of RAS/RAF itself. However, such mutations have only occasionally been reported in gliomas. In order to further elucidate the role of RAS/RAF pathway activation in a histopathological and genetic spectrum of glioma subtypes (n = 93), we evaluated different types of aberrations in this pathway. Hotspot mutation analysis of BRAF, NRAS, KRAS, and HRAS revealed only two mutations, V600M in BRAF and G10E in NRAS, both occurring in pure oligodendroglial tumors. However, CGH analysis of 87 tumors revealed copy number gains including the above mentioned oncogenes in 38 of the neoplasms (44%) and including the upstream growth factors EGF, PDGF, IGF, FGF, TGF and/or their receptors in 46 tumors (53%). Phosphorylated MAPK (i.e. the activated compound downstream the RAS/RAF pathway) was detected by immunohistochemistry using tissue micro-arrays in the majority of gliomas. Interestingly, a significant correlation was found for nuclear MAPK-P staining and the number of these copy number gains (<or= 2 and >or= 3). These results indicate that RAS/RAF pathway activation in gliomas is achieved much more frequently by copy number gains including RAS/RAF and/or upstream growth factor (receptor) than by activating RAS/RAF mutations.
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PMID:RAS/RAF pathway activation in gliomas: the result of copy number gains rather than activating mutations. 1758 66

To identify novel glioma-associated pathomechanisms and molecular markers, we performed an array-based comparative genomic hybridization analysis of 131 diffuse astrocytic gliomas, including 87 primary glioblastomas (pGBIV), 13 secondary glioblastomas (sGBIV), 19 anaplastic astrocytomas (AAIII) and 12 diffuse astrocytomas (AII). All tumors were additionally screened for IDH1 and IDH2 mutations. Expression profiling was performed for 74 tumors (42 pGBIV, 11 sGBIV, 13 AAIII, 8 AII). Unsupervised and supervised bioinformatic analyses revealed distinct genomic and expression profiles separating pGBIV from the other entities. Classifier expression signatures were strongly associated with the IDH1 gene mutation status. Within pGBIV, the rare subtype of IDH1 mutant tumors shared expression profiles with IDH1 mutant sGBIV and was associated with longer overall survival compared with IDH1 wild-type tumors. In patients with IDH1 wild-type pGBIV, PDGFRA gain or amplification as well as 19q gain were associated with patient outcome. Array-CGH analysis additionally revealed homozygous deletions of the FGFR2 gene at 10q26.13 in 2 pGBIV, with reduced FGFR2 mRNA levels being frequent in pGBIV and linked to poor outcome. In conclusion, we report that diffuse astrocytic gliomas can be separated into 2 major molecular groups with distinct genomic and mRNA profiles as well as IDH1 gene mutation status. In addition, our results suggest FGFR2 as a novel glioma-associated candidate tumor suppressor gene on the long arm of chromosome 10.
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PMID:Molecular signatures classify astrocytic gliomas by IDH1 mutation status. 2047 36

Global DNA hypomethylation is a hallmark of cancer cells, but its molecular mechanisms have not been elucidated. Here, we show that the disruption of Dnmt1/PCNA/UHRF1 interactions promotes a global DNA hypomethylation in human gliomas. We then demonstrate that the Dnmt1 phosphorylations by Akt and/or PKC abrogate the interactions of Dnmt1 with PCNA and UHRF1 in cellular and acellular studies including mass spectrometric analyses and the use of primary cultured patient-derived glioma. By using methylated DNA immunoprecipitation, methylation and CGH arrays, we show that global DNA hypomethylation is associated with genes hypomethylation, hypomethylation of DNA repeat element and chromosomal instability. Our results reveal that the disruption of Dnmt1/PCNA/UHRF1 interactions acts as an oncogenic event and that one of its signatures (i.e. the low level of mMTase activity) is a molecular biomarker associated with a poor prognosis in GBM patients. We identify the genetic and epigenetic alterations which collectively promote the acquisition of tumor/glioma traits by human astrocytes and glial progenitor cells as that promoting high proliferation and apoptosis evasion.
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PMID:Disruption of Dnmt1/PCNA/UHRF1 interactions promotes tumorigenesis from human and mice glial cells. 2061 74

The current classification of diffuse low-grade gliomas is based mainly on histopathological criteria, which cannot accurately predict the highly variable clinical course observed in patients with such tumors. In an attempt to increase pathogenetic understanding of these tumors, we investigated 38 WHO Grade II astrocytomas, oligodendrogliomas, and oligoastrocytomas using a combination of G-band chromosome analysis and high-resolution comparative genomic hybridization (HR-CGH). Abnormal karyotypes were found in 41% of tumors. Karyotypes of astrocytomas and oligodendrogliomas were near-diploid whereas oligoastrocytomas also displayed near-tetraploid clones. The most common aberrations were losses of chromosomes X, Y, 3, 4, 6, and 11 and gains of chromosomes 8 and 12. The only recurrent structural rearrangement was del(6)(q21). HR-CGH analysis verified karyotyping findings but also revealed frequent losses at 1p, 17q, and 19q and gains of 7q, 10p, 11q, and 20p. Among the tumors were two gemistocytic astrocytomas, a subgroup of diffuse astrocytomas with a particular predisposition for progression but not studied cytogenetically before; one showed a near-diploid, complex karyotype with structural aberrations of chromosomes 1, 3, and 11 whereas both displayed simple aberrations including loss of 11p by HR-CGH. Our findings suggest that within diffuse low-grade gliomas are genetically distinct entities that do not fit the currently used classification. In addition, tumors with complex chromosomal aberrations had a higher tendency for aggressive tumor behavior (shorter progression-free survival) than tumors displaying simple aberrations only (P = 0.07). This could help identify genetic subsets of patients with low-grade glioma who might benefit from early antineoplastic therapy.
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PMID:Genomic aberrations in diffuse low-grade gliomas. 2141 29


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