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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In this study the expression of
p16INK4
, retinoblastoma protein (pRb), and cdk4 proteins have been examined in 18 malignant
glioma
cell lines and in 45 malignant
glial tumors
. Loss of
p16INK4
expression associated with
p16INK4
gene homozygous deletion was evident in 12 cell lines and in 10 primary tumors. Lack of
p16INK4
expression was also evident in five tumors for which there was no evidence of
p16INK4
gene homozygous deletion. Two of the cell lines and six of the primary tumors in which
p16INK4
was present were determined to overexpress cdk4 in association with CDK4 gene amplification. Absence of pRb was determined in two of the cell lines and in ten of the tumors. In total, 16 of 18 cell lines and 25 of 45 tumors showed either a lack of
p16INK4
or pRb or amplification-associated overexpression of cdk4. Two additional tumors showed an absence of pRb and
p16INK4
, and one tumor showed a lack of pRb combined with amplification-associated overexpression of cdk4. These results suggest a common growth-regulatory mechanism that is disrupted in gliomas by either suppressing the expression of
p16INK4
or pRb or by increasing the expression of cdk4.
...
PMID:Lack of p16INK4 or retinoblastoma protein (pRb), or amplification-associated overexpression of cdk4 is observed in distinct subsets of malignant glial tumors and cell lines. 758 16
P16INK4 is a cell cycle regulator that specifically binds to and inactivates cyclin-dependent kinase 4 (CDK4). Its encoding gene (p16/
CDKN2
) maps to chromosome 9p21, a region that undergoes frequent loss of heterozygosity in a variety of human tumors. We have analyzed the p16/
CDKN2
gene and its expression in a series of primary
glioma
samples. Although homozygous deletion or mutation of the p16/
CDKN2
gene was uncommon in this series and P16INK4 protein was detectable in all grade II tumors, it was present in only 50% of grade III and grade IV samples. Conversely, in some grade IV tumors that level of P16INK4 protein was elevated; in these cases, its target, CDK4, was amplified and overexpressed. These results suggest: (a) the involvement of P16INK4 in
glioma
progression; (b) that mechanisms other than mutation or deletion can down-regulate expression of the p16/
CDKN2
gene; and (c) that the balance between CDK4 and its cognate inhibitor, P16INK4, may confer a cell growth advantage and facilitate tumor progression.
...
PMID:Loss of P16INK4 expression is frequent in high grade gliomas. 772 64
Deletions of chromosomal band 9p21 have been detected in various tumor types including melanoma,
glioma
, lung cancer, mesothelioma, and bladder cancer. Recently, the
CDKN2
gene (p16INK4A, MTS I, CDK41) has been proposed as a candidate tumor suppressor gene because it is frequently deleted in cell lines derived from multiple tumor types. We performed fluorescence in situ hybridization (FISH) with interphase cells using yeast artificial chromosome clones and a cosmid contig of the
CDKN2
region. In 10 cell lines (4
glioma
, 2 melanoma, 2 non-small cell lung cancer, 2 bladder cancer) with 9p alterations detected by molecular or cytogenetic analysis, interphase FISH with the
CDKN2
cosmid contig detected all 9p deletions previously identified by molecular analysis. Using this probe, FISH analysis of primary glioblastoma tumors revealed homozygous deletions of the
CDKN2
region in 6 of 9 tumors (67%) whereas a yeast artificial chromosome probe containing the interferon type I (IFN) gene cluster was deleted in only 4 cases (44%). Thus, it is likely that the
CDKN2
region is the target of 9p deletions in gliomas. Interphase FISH will play an important role in defining the clinical significance of 9p deletions in primary tumors because it is especially applicable to clinical samples which may be contaminated by normal cells.
...
PMID:Detection of CDKN2 deletions in tumor cell lines and primary glioma by interphase fluorescence in situ hybridization. 786 8
The p16/
CDKN2
gene has many features of a growth suppressor gene: it maps to 9p21, a frequent region of loss of heterozygozity in a variety of tumor types; it encodes an inhibitor of cyclin-dependent kinase 4; and its homozygous deletion is common in tumor-derived cell lines. However, the lower frequency of alteration of the gene in primary tumor tissue as compared to the cognate tumor cell lines has brought this interpretation into question. We have assessed the growth suppressive function of p16/
CDKN2
by gene transfer. The introduction of full-length p16/
CDKN2
cDNA caused marked growth suppression in p16/
CDKN2
-null human
glioma
cells, but was without significant effect in those cells with endogenous wild-type p16/
CDKN2
alleles. These results provide functional evidence in support of the hypothesis that the p16/
CDKN2
gene is a functional growth suppressor gene, at least in gliomas.
...
PMID:Replacement of the p16/CDKN2 gene suppresses human glioma cell growth. 788 35
p16 is involved in a cell cycle regulatory cascade that includes cyclin-dependent kinase 4 (cdk4), cyclin D1, and pRb (retinoblastoma). Alterations of each of these components have been described in primary human glioblastoma multiforme (GBM) or in GBM cell lines. Because perturbation of any component in this pathway may have similar oncogenic effects, we studied the relationship between abnormalities of
CDKN2
/p16 and RB, the two commonly involved tumor suppressor genes, in 55 astrocytic gliomas (42 GBMs, 8 anaplastic astrocytomas, and 5 astrocytomas). By using comparative multiplex PCR, homozygous deletions of the
CDKN2
/p16 gene were detected in 24 GBMs (57%) and in 2 anaplastic astrocytomas. Two additional GBMs and one anaplastic astrocytoma had allelic loss of chromosome 9p, as assessed by microsatellite polymorphisms flanking the
CDKN2
/p16 region. Single-strand conformation polymorphism and DNA sequencing analysis of all three coding exons of
CDKN2
/p16 revealed a frameshift mutation (four-bp deletion) in one of the three GBMs that had lost the remaining 9p allele. Allelic loss of chromosome 13q at the RB gene, RB gene mutations, or loss of pRb expression was noted in 14 GBMs (33%) and 2 anaplastic astrocytomas. Thirty-six of 42 GBMs (86%) had alterations of either
CDKN2
/p16 (n = 22), RB (n = 10), or both (n = 4); these two genetic changes, however, were relatively exclusive (P = 0.003). Furthermore, of the six GBMs without either
CDKN2
/p16 or RB gene abnormalities, one case had CDK4 gene amplification. These data indicate that the vast majority of GBMs probably have inactivation of the p16-cdk4/cyclin D1-pRb pathway. The findings also provide corroborative evidence that
CDKN2
/p16 and RB are the critical
glioma
tumor suppressor genes on chromosomes 9p and 13q, respectively.
...
PMID:CDKN2/p16 or RB alterations occur in the majority of glioblastomas and are inversely correlated. 854 55
The p16 (MTS1/
CDKN2
) gene localized at the 9p21 chromosomal region encodes for a cell cycle inhibitor protein and is altered in many human cancers. The frequency of p16 alterations in gliomas exceeds 50%. To restore the missing wild-type p16 gene efficiently in
glioma
cells an adenovirus vector carrying the full length coding sequence of the wild-type p16 cDNA, Ad5RSV-p16, was constructed. Three human
glioma
cell lines, U251 MG, U-87 MG and D54 MG, that did not express endogenous p16/
CDKN2
gene and were easily infected with adenovirus vectors were selected for these experiments. Introduction of the Ad5RSV-p16 in these malignant
glioma
cell lines directed the biosynthesis of functional p16 protein in the majority of the exposed cells, significantly inhibited cell growth, influenced cell morphology and modified the transformed phenotype of cells including the ability to form colonies in soft agar. Flow cytometric studies revealed that the majority of the Ad5RSV-p16 infected
glioma
cells were arrested in the G0-G1 phases of the cell cycle. These results suggest that p16/
CDKN2
inactivation is a significant factor in the genesis and progression of gliomas and that the restoration of the wild-type p16 protein could have clinical and therapeutic utility.
...
PMID:Adenovirus-mediated p16/CDKN2 gene transfer induces growth arrest and modifies the transformed phenotype of glioma cells. 855 79
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.
...
PMID:Deletions and rearrangements inactivate the p16INK4 gene in human glioma cells. 864 64
Cancer has been proposed to develop by a process of stepwise accumulation of growth-advantageous genetic alterations which result in the evolution of clones which are outgrowths of such rare cells [1]. This model has recently been extensively tested in human gliomas, the most common primary tumor of the adult central nervous system. Temporal disease progression involves an interplay between growth-suppressing and growth-promoting genes. Specifically for gliomas, genetic studies have indicated loss of germline heterozygosity for chromosome 17p; mutation of the p53 gene; overexpression of the platelet-derived growth factor-alpha receptor; allelic losses of chromosomes 22q, 13q, and 19q; deletion of the interferon-alpha and beta and
CDKN2
loci on chromosome 9p; amplification and rearrangement of the epidermal growth factor receptor gene, and monosomy of chromosome 10. The following discussion details these genetic alterations and their consequences for the biology of
glioma
progression with the ultimate aim of providing new avenues for clinical intervention.
...
PMID:Molecular biology of malignant degeneration of astrocytoma. 881 14
Deletions of chromosomal region 9p21 are among the most common genetic alterations observed during the clonal evolution of high grade malignant gliomas. Structural and functional evidence has suggested that homozygous deletion involving CDKN2A (the genetic locus encoding the
cyclin-dependent kinase inhibitor p16
(NK4a)) is a mechanism of inactivation of this gene and that it can be a growth suppressor in human gliomas. However, the presence of other potential suppressor genes in the 9p21 region and the relatively large sizes of the deletions has made it difficult to be certain that the CDKN2A gene is their actual target. Here, we tested this hypothesis by determining the growth suppressive effects, cell cycle inhibitions, and the activities of seven naturally occurring
glioma
-derived CDKN2A alleles carrying point mutations and found that two of them were functionally compromised. To resolve discrepancies among the different existing functional assays, we developed an assay for p16(
INK4a
) function that allowed us to demonstrate that the expression of wild-type CDKN2A, but not alleles with inactivating mutations, prevents pRB phosphorylation in vivo in human
glioma
cells. These data suggest that CDKN2A is a critical target for mutational inactivation in human malignant gliomas.
...
PMID:Point mutations can inactivate in vitro and in vivo activities of p16(INK4a)/CDKN2A in human glioma. 905 59
p16INK4A is a G1-specific cell cycle inhibitor which maps to human chromosome 9p21, a region frequently mutated or deleted in cancer cell lines and primary tumors. In glioblastomas the frequency of homozygous deletions is 40-70% making it one of the most common mutations in this tumor type. We have analysed the significance of the loss of this gene in gliomas by introducing the cDNA for p16INK4A into the human
glioma
cell line U-1242 MG which has a deleted
CDKN2
locus. We used the tetracycline repressible vector system and obtained two stably transfected clones that expressed p16INK4A upon induction. p16INK4A expression caused a G1 arrest and enlargement of the cells similar to that of senescent cells. When staining for Senescence-Associated beta-galactosidase activity, described to be specific for senescent cells, we could show that the enlarged cells specifically gave a positive staining reaction. This senescence phenotype was dependent on the continuous expression of p16INK4A since it was reversed upon reintroduction of tetracycline suppression. Thus, the induced expression of p16INK4A in these
glioma
cells reverted their immortal phenotype and caused an immediate cellular senescence.
...
PMID:Induction of senescence in human malignant glioma cells by p16INK4A. 924 4
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