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)

Astrocytomas are the most frequent group of intracranial tumors. Among them, glioblastoma is the most aggressive one. In this review we will describe the most common genetic abnormalities found out in astrocytomas. We will refer to the epidermal growth factor receptor (EGFR), p53, p16, PTEN and DMBT1 genes. We will also present certain genetic aspects that influence the progression to glioblastoma.
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PMID:[Molecular genetics of astrocytomas]. 1288 11

The objective of this study was to determine the immunoexpression pattern of the mitogen-activated protein kinase (MAPK), and related signalling proteins [protein kinase C (PKC), phospholipase Cgamma (PLCgamma)], in glioblastoma multi-forme, and to investigate their prognostic value. Paraffin-embedded biopsy samples from 26 patients [13 patients with long-term survival (LTS; N=13; median 28 months, range 13-76 months), and, for comparison, 13 patients with short-term survival (STS; N=13; median 7 months, range 1-12 months)] were investigated for the immunoexpression of MAPK, the activated pMAPK, PKC, PLCgamma, EGFR, and PTEN. Additionally, the MIB-1 proliferation index was determined. The immunoexpression pattern were related to clinical data, including analysis of their prognostic value using the Cox-proportional hazard model. No significant differences were found between STS and LTS in terms of age, Karnofsky performance status, and treatment. Whereas EGFR expression did not differ between STS and LTS and does not influence survival, expression of MAPK and activated pMAPK was significantly correlated with survival time. The percentage of pMAPK expressing cells correlated strongly with the percentage of MIB-1 positive cells. Furthermore, survival in patients with tumors expressing PKC or PLCgamma was significantly shorter. No differences were found for PTEN expression. Our findings indicate that the MAPK pathway is correlated with proliferation in gliomas, and that patient subgroups exist, in which expression of MAPK-related signalling proteins (PKC, PLCgamma) is associated with poorer prognosis. These patient subgroups may benefit from additional chemotherapeutic agents which specifically inhibit these signalling proteins.
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PMID:Prognostic relevance of MAPK expression in glioblastoma multiforme. 1288 99

The tumor suppressor gene PTEN on chromosome 10q23.3 regulates the Akt signaling pathway and modulates cell growth and apoptosis. The PTEN gene is mutated in 20-40% of glioblastomas. In this study, we assessed whether loss of PTEN expression is also caused epigenetically. Methylation-specific PCR revealed that CpG islands of the PTEN promoter were methylated in 27 of 77 (35%) glioblastomas and in 4 of 11 (36%) glioblastoma cell lines. Only two glioblastomas showed loss of PTEN immunoreactivity in the entire biopsy; both had a missense PTEN mutation and LOH at the PTEN locus, but lacked PTEN methylation. In biopsy specimens with focal loss of PTEN expression, DNA samples extracted from microdissected foci showed PTEN methylation only in areas with loss of PTEN expression. These results suggest that PTEN methylation occurs frequently in glioblastomas and may be associated with focal loss of PTEN expression. However, the correlation between PTEN methylation, PTEN mutations, LOH at the PTEN locus, and loss of PTEN protein expression was inconsistent. Possible reasons for discrepancies between gene status and protein expression include differences in the biological effect of specific PTEN mutations and the possibility that the processed PTEN pseudogene on 9p21 is expressed in glioblastomas and co-reacts with the PTEN antibody.
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PMID:PTEN methylation and expression in glioblastomas. 1290 91

PTEN, on 10q23.3, encodes a major lipid phosphatase which signals down the phosphoinositol-3-kinase/Akt pathway and effects G1 cell cycle arrest and apoptosis. Germline PTEN mutations have been found to occur in 80% of classic Cowden syndrome (CS), 60% of Bannayan-Riley-Ruvalcaba syndrome (BRRS), up to 20% of Proteus syndrome (PS), and approximately 50% of a Proteus-like syndrome (PSL). CS is a heritable multiple hamartoma syndrome with a high risk of breast, thyroid, and endometrial carcinomas. BRRS is a congenital autosomal dominant disorder characterized by megencephaly, developmental delay, lipomatosis, and speckled penis. PS and PSL had never been associated with risk of malignancy. Finding germline PTEN mutations in patients with BRRS, PS, and PSL suggests equivalent risks of developing malignancy as in CS with implications for medical management. The mutational spectra of CS and BRRS overlap, with many of the mutations occurring in exons 5, 7, and 8. Genotype-phenotype association analyses have revealed that the presence of germline PTEN mutations is associated with breast tumor development, and that mutations occurring within and 5' of the phosphatase motif were associated with multi-organ involvement. Pooled analysis of PTEN mutation series of CS and BRRS occurring in the last five years reveals that 65% of CS-associated mutations occur in the first five exons encoding the phosphatase domain and the promoter region, while 60% of BRRS-associated mutations occur in the 3' four exons encoding mainly the C2 domain. Somatic PTEN mutations occur with a wide distribution of frequencies in sporadic primary tumors, with the highest frequencies in endometrial carcinomas and glioblastoma multiform. Several mechanisms of PTEN inactivation occur in primary malignancies derived from different tissues, but a favored mechanism appears to occur in a tissue-specific manner. Inappropriate subcellular compartmentalization and increased/decreased proteosome degradation may be two novel mechanisms of PTEN inactivation. Further functional work could reveal more effective means of molecular-directed therapy and prevention.
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PMID:PTEN: one gene, many syndromes. 1293 83

Glioblastomas frequently carry mutations in the PTEN tumor suppressor gene on 10q23.3. The tumor suppressor properties of Pten are closely related to its inhibitory effect on the phosphatidyl-inositol-3'-kinase (Pi3k)-dependent activation of protein kinase B (Akt) signalling. Here, we report on the analysis of 17 genes related to the Pi3k/Akt signalling pathway for genetic alteration and aberrant expression in a series of 103 glioblastomas. Mutation, homozygous deletion or loss of expression of PTEN was detected in 32% of the tumors. In contrast, we did not find any aberrations in the inositol polyphosphate phosphatase like-1 gene (INPPL1), whose gene product may also counteract Pi3k-dependent Akt activation. Analysis of genes encoding proteins that may activate the pathway upstream of Pi3k revealed variable fractions of tumors with EGFR amplification (31%), PDGFRA amplification (8%), and IRS2 amplification (2%). The protein tyrosine kinase 2 (PTK2/FAK1) gene was neither amplified nor overexpressed at the mRNA level. Investigation of three genes encoding catalytic subunits of Pi3k (PIK3CA, PIK3CD, and PIK3C2B) revealed amplification of PIK3C2B (1q32) in 6 tumors (6%). Overexpression of PIK3C2B mRNA was detected in 4 of these cases. PIK3CD (1p36.2) and PIK3CA (3q26.3) were not amplified but PIK3CD mRNA was overexpressed in 6 tumors (6%). Amplification and overexpression of AKT1 was detected in a single case of gliosarcoma. The IRS1, PIK3R1, PIK3R2, AKT2, AKT3, FRAP1, and RPS6KB1 genes were neither amplified nor overexpressed in any of the tumors. Taken together, our data indicate that different genes related to the Pi3k/Akt signalling pathway may be aberrant in glioblastomas.
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PMID:Genetic alterations and aberrant expression of genes related to the phosphatidyl-inositol-3'-kinase/protein kinase B (Akt) signal transduction pathway in glioblastomas. 1465 56

Two metachronous glioblastomas with different cerebral locations in a 53-year-old long-term survival patient were analyzed by multiple genetic approaches. Using comparative genomic hybridization a different pattern of chromosomal aberrations was observed, with 19 imbalances in the first tumor and only 2 imbalances in the second. Sequence analysis revealed a distinct mutation profile in each tumor, with amino acid substitutions in the p53 and PTEN genes only in the first tumor, ie, p53 in codon 273 (CGT-->TGT, Arg-->Cys) and PTEN in codon 336 (TAC-->TTC, Tyr-->Phe). A splicing acceptor site PTEN mutation (IVS8-2A>G) was observed only in the second GBM. EGFR amplification, mutations of p16INK4a/CDKN2A or p14ARF were not observed. According to the results of p53 mutational analysis and EGFR amplification studies, the first tumor is classified as a type 1 GBM, whereas the alterations in the second one are different from those typically encountered in type 1 or type 2 tumors. In conclusion, our data strongly suggest that the metachronous tumors in this patient are exceptional in that they developed independently from each other. Whether the molecular features of the first glioblastoma are associated with the notably extended recurrence-free period of 5 years remains to be elucidated.
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PMID:Independent molecular development of metachronous glioblastomas with extended intervening recurrence-free interval. 1465 63

The PTEN (phosphatase and tensin homologue deleted on chromosome 10) tumour-suppressor protein is a phosphoinositide 3-phosphatase which antagonizes phosphoinositide 3-kinase-dependent signalling by dephosphorylating PtdIns(3,4,5)P3. Most tumour-derived point mutations of PTEN induce a loss of function, which correlates with profoundly reduced catalytic activity. However, here we characterize a point mutation at the N-terminus of PTEN, K13E from a human glioblastoma, which displayed wild-type activity when assayed in vitro. This mutation occurs within a conserved polybasic motif, a putative PtdIns(4,5)P2-binding site that may participate in membrane targeting of PTEN. We found that catalytic activity against lipid substrates and vesicle binding of wild-type PTEN, but not of PTEN K13E, were greatly stimulated by anionic lipids, especially PtdIns(4,5)P2. The K13E mutation also greatly reduces the efficiency with which anionic lipids inhibit PTEN activity against soluble substrates, supporting the hypothesis that non-catalytic membrane binding orientates the active site to favour lipid substrates. Significantly, in contrast to the wild-type enzyme, PTEN K13E failed either to prevent protein kinase B/Akt phosphorylation, or inhibit cell proliferation when expressed in PTEN-null U87MG cells. The cellular functioning of K13E PTEN was recovered by targeting to the plasma membrane through inclusion of a myristoylation site. Our results establish a requirement for the conserved N-terminal motif of PTEN for correct membrane orientation, cellular activity and tumour-suppressor function.
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PMID:The tumour-suppressor function of PTEN requires an N-terminal lipid-binding motif. 1471 68

The tumour suppressor gene PTEN, located at chromosome sub-band 10q23.3, encodes a dual-specificity phosphatase that negatively regulates the phosphatidylinositol 3'-kinase (PI3 K)/Akt-dependent cellular survival pathway. PTEN is frequently inactivated in many tumour types including glioblastoma, prostate and endometrial cancers. While initial studies reported that PTEN gene mutations were rare in colorectal cancer, more recent reports have shown an approximate 18% incidence of somatic PTEN mutations in colorectal tumours exhibiting microsatellite instability (MSI+). To verify the role of this gene in colorectal tumorigenesis, we analysed paired normal and tumour DNA from 41 unselected primary sporadic colorectal cancers for PTEN inactivation by mutation and/or allelic loss. We now report PTEN gene mutations in 19.5% (8/41) of tumours and allele loss, including all or part of the PTEN gene, in a further 17% (7/41) of the cases. Both PTEN alleles were affected in over half (9/15) of these cases showing PTEN genetic abnormalities. Using immunohistochemistry, we have further shown that all tumours harbouring PTEN alterations have either reduced or absent PTEN expression and this correlated strongly with later clinical stage of tumour at presentation (P=0.02). In contrast to previous reports, all but one of the tumours with PTEN gene mutations were microsatellite stable (MSI-), suggesting that PTEN is involved in a distinct pathway of colorectal tumorigenesis that is separate from the pathway of mismatch repair deficiency. This work therefore establishes the importance of PTEN in primary sporadic colorectal cancer.
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PMID:PTEN mutations are common in sporadic microsatellite stable colorectal cancer. 1472 91

With tendency to invade rapidly in the brain, malignant gliomas are very resistant to conventional therapies including radiation and chemotherapy. Recent advances in genetic and molecular techniques have made it possible to define characteristic molecular profiles of malignant gliomas. Based on the list of the molecules closely related to glioblastoma tissues, we reviewed strategies targeting them. Target molecules extensively studied include EGFR, PTEN, telomerase and signal pathway modulators for Ras/Raf/MAPK and PI3K/Akt/mTOR pathways. Therapies targeting specific molecules may result in killing tumor cells effectively while keeping normal cells intact.
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PMID:Molecular targeting for malignant gliomas (Review). 1506 31

The mechanism by which the tumor suppressor PTEN slows tumor cell migration is not well characterized. A recent study by Raftopoulou et al. shows that a lack of PTEN protein phosphatase activity accelerates the migration of glioblastoma cells. The protein phosphatase activity of PTEN is directly or indirectly responsible for dephosphorylating a PTEN residue, threonine-383, which is necessary for slowing cell migration. These findings have implications for the design of new therapies against glioblastomas and other highly invasive cancers.
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PMID:Glioblastomas on the move. 1510 Apr 29

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