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)

Loci on chromosome 9p are frequently deleted in several malignant tumors, suggesting the presence of putative tumor suppressor genes. The MTS1/p16 and MTS2/p15 genes on 9p are considered to be candidates. Binding of p15 and p16 cell cycle-regulatory proteins to the cyclin dependent protein kinase CDK4 inhibits CDK4/cyclin D dependent phosphorylation of retinoblastoma protein. We analysed the DNAs from 37 gliomas of several grades of malignancy for allelic loss of chromosome 9p and aberrations of the MTS1/p16 and MTS2/p15 genes. We detected losses of one allele and homozygous deletions at loci, including those of the MTS1/p16 and MTS2/p15 genes, in 10 and 3 tumors, respectively. However, we did not detect any tumor-specific mutation in the two genes. The CDK4 gene was amplified in two malignant gliomas without homozygous deletion of the MTS1/p16 and MTS2/p15 genes and one malignant glioma with an allelic loss of the genes. These data suggest that aberrations of the genes coding for components of the cell cycle-regulatory system occurred in at least 15 of 37 gliomas.
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PMID:Homozygous deletion of the MTS1/p16 and MTS2/p15 genes and amplification of the CDK4 gene in glioma. 747 35

Structural alterations in the p16INK4 gene were examined in early passage human glioma cell lines and related to the expression of p16 transcripts and protein. Using the Southern blot approach, we observed both homozygous and hemizygous deletions, as well as rearrangements of the p16 and p15 genes in 5 of the 7 cell lines (71%). Two cell lines, MGR3 and HBT28, revealed hemizygous deletion of the p16 and p15 genes combined with indistinguishable rearrangements of the remaining p15-p16 locus that resulted in loss of exon 2 sequences for p15 and p16, but retention of p16 exon 1; neither of these cell lines expressed p16 mRNA. Data for a third cell line, MGR2, indicated a similar, but unique rearrangement involving the p15 and p16 genes. MGR2, which retained a single wild-type p15-p16 locus, showed expression of p16 transcript, but not of p16 protein as indicated by Western blot analysis. All the glioma cell lines expressed similar levels of the retinoblastoma protein and no amplification of the cyclin-dependent kinase 4 gene. These results demonstrate that human glioma cells contain p16 gene microdeletions and rearrangements that contribute to inactivation of the cell cycle regulatory protein.
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PMID:Deletions and rearrangements inactivate the p16INK4 gene in human glioma cells. 864 64

Abnormalities in the p16, p15 and CDK4 genes that regulate transition through the G1 phase of the cell cycle have been implicated in the malignant progression of astrocytomas. The results of the present study demonstrate that dysfunction of these genes also occurs during recurrence of glial tumors that were highly malignant at first presentation. Analysis of 10 matched pairs of high grade malignant astrocytomas and their subsequent recurrences identified three distinct groups. The primary and recurrent tumors in Group A did not show structural alterations in the p16, p15 or CDK4 genes, whereas homozygous codeletion of p16 and p15 was observed in both primary and recurrent tumors in Group B. The primary tumors in Group C had a normal profile of p16, p15 and CDK4 at presentation. Upon recurrence, however, the tumors sustained either deletion of p16 alone or codeletion of both p16 and p15 or amplification of CDK4. Analysis of the molecular differences between primary anaplastic astrocytomas/glioblastomas and their subsequent recurrences, which are clinically indistinguishable, may provide better therapeutic options for treatment.
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PMID:Abnormalities of p16, p15 and CDK4 genes in recurrent malignant astrocytomas. 876 Mar 9

A total of 10 glioma cell lines were examined for alterations of the p16, p15, p53 and p21 genes, which are tumor suppressor genes or candidates with direct or indirect CDK-inhibitory functions. Genetic alterations (deletions or mutations) were frequently seen in the p16, p15 and p53 genes in these cell lines, but not in the p21 gene. When the states of the p16, p15 and p53 genes were compared among cell lines, all the cell lines showed abnormalities in at least 1 gene, often in 2 or 3 genes coincidentally, suggesting that dysfunction of these genes is closely related to glioma cell growth. Although alteration of all 3 genes was most frequent, there were cell lines having either p16/p15 or p53 or pl6 and p53 gene alterations, suggesting that the time order of these genetic alterations was variable depending on the cell line. Among cell lines examined, one with homozygous p53 gene deletion seemed of particular practical value, since such a cell line might be useful in various studies, including investigation of the functions of various mutant p53 genes in the absence of heteromeric protein formation. On examination of the primary tumor tissues, the same alterations of the p16/p15 and p53 genes as detected in the cell lines were demonstrated in all 6 cases examined: p16/p15 gene deletion in 1, p16 gene mutation in 1 and p53 gene mutations in 5 cases. This suggested that the p16/p15 and the p53 gene alterations and their combinations in at least some glioma cell lines reflected those in the primary glioma tissues.
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PMID:A comparative study of glioma cell lines for p16, p15, p53 and p21 gene alterations. 887 51

The tumor suppressor gene CDKN2A (p16/MTS1/INK4A), which encodes the cyclin-dependent kinase inhibitor p16(INK4a), is a target of 9p21 deletions during the malignant progression of human gliomas. This gene also encodes a second protein product (human p16beta, murine p19ARF), which originates from an unrelated exon of CDKN2A (exon 1beta) spliced onto exon 2 in an alternate reading frame. Cell cycle arrest by p16beta is caused by an as yet unidentified pathway. In order to test the candidacy of p16beta as a glioma suppressor, we replaced p16(INK4a), p15(INK4b) and p16beta wild-type as well as a series of seven glioma-derived p16beta alleles (R87H, A112V, R120H, A121V, G125R, A128A and A128V), into glioma cell lines that had either CDKN2A-/RB+ (U-87MG and U-251MG) or CDKN2A+/RB- (LN-319) endogenous backgrounds and demonstrated that p16beta can act as a functional glioma cell growth suppressor. Moreover, p16beta, but not p16(INK4a) or p15(INK4b) inhibited the growth of RB-negative LN-319 cells, indicating that p16beta likely exerts its effects through an RB-independent pathway. In vitro and in vivo assays of pRB phosphorylation were consistent with this interpretation. Since none of the glioma-derived p16beta mutations inactivated their growth suppressive activities, it appears that mutations in CDKN2A exon 2 (which is shared in the coding sequences of p16(INK4a) and p16beta) likely exclusively target p16(INK4a).
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PMID:Functional analysis of wild-type and malignant glioma derived CDKN2Abeta alleles: evidence for an RB-independent growth suppressive pathway. 936 18

Loss of heterozygosity (LOH) observed at polymorphic loci on both arms of chromosome 10 in many human gliomas suggests the presence of multiple tumor suppressor genes on this chromosome. Recently, the PTEN/MMAC1 gene on 10q23 was isolated as one of these putative glioma suppressors. To determine the subchromosomal localization of others, we analysed 79 gliomas for LOH using 30 polymorphic microsatellite markers on the short arm and 10 markers on the long arm of chromosome 10. Twenty tumors showed LOH at all the loci examined, while 17 others showed LOH at loci on a portion of chromosome 10. Deletion mapping of the latters demonstrated that two distinct regions, encompassing genetic distances of 5.6 cM on 10p15 and 5.5 cM on 10p14, were lost frequently. Introduction of chromosomal fragments 10p14-p15, which included the entire region on 10p15 and a portion of that on 10p14 assigned by deletion mapping, into the human glioblastoma cell line T98G through microcell-mediated chromosome transfer markedly suppressed colony forming ability in soft agar compared with parental T98G cells. The combined results of structural and functional analyses strongly suggest that aberrations of the tumor suppressor gene(s) within chromosomal region 10p14-p15 are involved in development of human gliomas.
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PMID:Structural and functional evidence for the presence of tumor suppressor genes on the short arm of chromosome 10 in human gliomas. 946 44

Malignant glial tumors (anaplastic astrocytomas and glioblastomas multiforme) arise mostly either from the progression of low grade precursor lesions or rapidly in a de novo fashion and contain distinct genetic alterations. There is, however, a third subset of malignant gliomas in which genetic lesions remain to be identified. Following surgical resection, all gliomas appear to have an inherent tendency to recur. Comparative molecular analysis of ten primary malignant gliomas (three anaplastic astrocytomas and seven glioblastomas multiforme) with their recurrences identified two distinct subgroups of recurrent tumors. In one group, primary tumors harbored genetic aberrations frequently associated with linear progression or de novo formation pathways of glial tumorigenesis and maintained their genetic profiles upon recurrence. In the other subset with no detectable known genetic mutations at first presentation, the recurrent tumors sustained specific abnormalities associated with pathways of linear progression or de novo formation. These included loss of genes on chromosomes 17 and 10, mutations in the p53 gene, homozygous deletion of the DMBTA1 and p16 and/ or p15 genes and amplification and/or overexpression of CDK4 and alpha form of the PDGF receptor. Recurrent tumors from both groups also displayed an abnormal expression profile of the metalloproteinase, gel A, and its inhibitor, TIMP-2, consistent with their highly invasive behavior. Delineation of the molecular differences between malignant glioblastomas and their subsequent recurrences may have important implications for the development of rational clinical approaches for this neoplasm that remains refractory to existing therapeutic modalities.
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PMID:Comparative molecular genetic profiles of anaplastic astrocytomas/glioblastomas multiforme and their subsequent recurrences. 1002 21

We established two glioma cell lines from two surgical specimens obtained at different times from the same patient. One (No. 9R), which was derived from the recurrent tumor (glioblastoma, grade IV), proliferated more rapidly in vitro than the other (No. 9) from the primary tumor (slightly anaplastic astrocytoma, grade II-III). No. 9R showed heterotransplantability in nude mice, whereas No. 9 did not. These findings indicate that No. 9R has a more aggressive or malignant nature than No. 9. Both cell lines showed homozygous deletion of the representative tumor suppressor p16 and p15 genes, but no p53 gene alteration. However, examination of the overall mRNA expression profile using a commercially available cDNA-spotted membrane revealed much higher expression levels of several mRNAs, at least, in No. 9R than in No. 9, although the relationship between these mRNAs and the growth potentials remained unknown. These two cell lines, derived from the same individual, with different proliferating potentials may be useful for studies on the molecular bases of glioma malignancy and progression.
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PMID:Establishment of two glioma cell lines from two surgical specimens obtained at different times from the same individual. 1035 44

The expression of the cyclin-dependent kinase inhibitor p15INK4B in normal cells after induction with TGF-beta1, or following overexpression from an adenovirus-encoded cDNA, appears on an SDS-polyacrylamide gel as a doublet. Here, the underlying mechanism behind the synthesis of the two species has been studied. By expressing cDNAs truncated at their 5' end, we found that the synthesis of the more slowly migrating form, called p15.5INK4B, is dependent on a sequence upstream of the first AUG codon thought to initiate translation of p15INK4B. Two potential, in frame, alternative upstream initiation codons, ACG and GUG, were individually changed to GCA encoding alanine. Analysis by in vitro translation, or immunoblotting of lysates from transfected 293 cells, showed that translation of p15.5INK4B is initiated at the GUG located 13 codons upstream of the first AUG. When this AUG was mutated, p15INK4B was no longer made. Instead, a shorter form, initiated at an in frame AUG located seven codons downstream, was synthesized. Finally, when both these AUGs were mutated, only p15.5INK4B was generated. Both p15INK4B and p15.5INK4B bound to CDK4 and CDK6, inhibited DNA synthesis, and caused replicative senescence of a human glioma cell line. We thus conclude that p15INK4B and p15.5INK4B, encoded by the CDKN2B gene, are functionally indistinguishable as based on these assays.
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PMID:Translation of p15.5INK4B, an N-terminally extended and fully active form of p15INK4B, is initiated from an upstream GUG codon. 1076 30

The genes encoding the cyclin-dependent kinase inhibitors p16INK4A (CDKN2A) and p15INK4B (CDKN2B) are frequently homozygously deleted in a variety of tumor cell lines and primary tumors, including glioblastomas in which 40-50% of primary tumors display homozygous deletions of these two loci. Although the role of p16 as a tumor suppressor has been well documented, it has remained less well studied whether p15 plays a similar growth-suppressing role. Here, we have used replication-defective recombinant adenoviruses to compare the effects of expressing wild-type p16 and p15 in glioma cell lines. After infection, high levels of p16 and p15 were observed in two human glioma cell lines (U251 MG and U373 MG). Both inhibitors were found in complex with CDK4 and CDK6. Expression of p16 and p15 had indistinguishable effects on U251 MG, which has homozygous deletion of CDKN2A and CDKN2B, but a wild-type retinoblastoma (RB) gene. Cells were growth-arrested, showed no increased apoptosis, and displayed a markedly altered cellular morphology and repression of telomerase activity. Transduced cells became enlarged and flattened and expressed senescence-associated beta-galactosidase, thus fulfilling criteria for replicative senescence. In contrast, the growth and morphology of U373 MG, which expresses p16 and p15 endogenously, but undetectable levels of RB protein, were not affected by exogenous overexpression of either inhibitor. Thus, we conclude that overexpression of p15 has a similar ability to inhibit cell proliferation, to cause replicative senescence, and to inhibit telomerase activity as p16 in glioma cells with an intact RB protein pathway.
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PMID:Adenovirus-mediated overexpression of p15INK4B inhibits human glioma cell growth, induces replicative senescence, and inhibits telomerase activity similarly to p16INK4A. 1093 91

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