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Query: UMLS:C0017636 (
glioblastoma
)
18,345
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Malignant astrocytomas are highly invasive, vascular neoplasms that comprise the majority of nervous system tumors in humans. A strong association has previously been made between malignancy in human astrocytic tumors and increased expression of certain fibroblast growth factor (FGF) family members, including basic and acidic FGF. The influence of endogenous basic FGF on
glioblastoma
cell growth in vitro was evaluated using basic FGF-specific antisense oligonucleotides. These studies indicated that human
glioblastoma
cell growth in vitro, can be inhibited by suppressing basic FGF expression. Human astrocytomas also exhibited changes in FGF receptor (FGFR) expression during the course of their progression from a benign to a malignant phenotype. FGFR2 (bek) expression was abundant in normal white matter and in all low grade astrocytomas, but was not observed in glioblastomas. Conversely, FGFR1 (flg) expression was absent or barely detectable in normal white matter, but was significantly elevated in glioblastomas.
Glioblastomas
also expressed an alternatively spliced form of FGFR1 containing two immunoglobulin-like disulfide loops (FGFR1 beta), whereas normal human adult and fetal brain expressed a form of the receptor containing three immunoglobulin-like disulfide loops (FGFR1 alpha). Intermediate grades of astrocytic tumors exhibited a gradual loss of FGFR2 and a shift in expression from FGFR1 alpha to FGFR1 beta as they progressed from a benign to a malignant phenotype. The underlying cytogenetic changes that contribute to these alterations are not entirely understood, but abnormalities in the
p53 tumor suppressor
gene may influence expression of bFGF as well as the FGFR. These results suggest that alterations in FGFR signal transduction pathways may play a critical role in the malignant progression of astrocytic tumors.
...
PMID:Basic fibroblast growth factor and fibroblast growth factor receptor I are implicated in the growth of human astrocytomas. 796 81
To characterize some of the genetic events underlying the development of glioblastoma multiforme, the authors analyzed 65 astrocytic tumors (seven pilocytic astrocytomas, eight astrocytomas, 16 anaplastic astrocytomas, and 34 glioblastomas multiforme) for loss of heterozygosity for chromosome 17p, loss of heterozygosity for chromosomes 10p and 10q, amplification of the epidermal growth factor receptor (EGFR) gene, and amplification of the oncogenes N-myc, c-myc, and N-ras using Southern blot analysis. Alterations of the
p53
gene (positive immunostaining for
p53 protein
in tumors with or without
p53
gene mutations) in these 65 tumors were analyzed previously. None of the 65 tumors showed amplification or rearrangement of N-myc, c-myc, or N-ras oncogenes. The molecular analysis presented here demonstrates distinct variants of astrocytic tumors, with at least three genetic pathways leading to glioblastoma multiforme. One pathway was characterized by 43 astrocytomas with alterations in
p53
.
Glioblastomas
with
p53
alterations may represent tumors that progress from lower-grade astrocytomas. This variant was more likely to show loss of chromosome 17p than tumors without
p53
alterations (p < 0.04). Seventy-five percent of tumors with loss of one 17p allele demonstrated mutations in the
p53
gene. Loss of chromosome 10 was associated with progression from anaplastic astrocytoma (13%) to
glioblastoma
(38%) (p < 0.04). Amplification of the EGFR gene was a rare (7%) but late event in tumor progression (p < 0.03). A second pathway was characterized by six astrocytomas without
p53
alterations and may represent clinically de novo high-grade tumors. These tumors were more likely to show amplification of the EGFR gene (83%) than tumors with
p53
alterations. Sixty percent of tumors with EGFR amplification also showed loss of chromosome 10; loss of chromosome 17p was infrequent in this variant. One or more alternative pathways were characterized by 16 astrocytomas without
p53
alterations and with none of the genetic changes analyzed in this study.
Glioblastomas
are a heterogeneous group of tumors that may arise via multiple genetic pathways.
...
PMID:Pathways leading to glioblastoma multiforme: a molecular analysis of genetic alterations in 65 astrocytic tumors. 805 51
Mutations in the
p53
gene, which codes for a cell division regulatory protein, have been identified in approximately one-third of adult astrocytomas. We evaluated 35 astrocytic tumors (17 pilocytic, 4 diffuse low grade, 12 anaplastic, and 2
glioblastoma
) in pediatric patients for
p53
mutations, using polymerase chain reaction-single-stranded conformation polymorphism analysis as a screening technique. Additionally, those tumors identified with homozygosity in the area of the
p53
gene on chromosome 17 by Southern blotting were sequenced to look for
p53
mutations. No tumors were identified with polymerase chain reaction-single-stranded conformation polymorphism analysis shifts indicative of mutations in the
p53
gene. Five of 21 tumors were homozygous in the region of the
p53
gene on chromosome 17; no mutations in exons 5 to 8 were found in any of these tumors. The frequency of
p53
mutation in pediatric astrocytomas is significantly less than the frequency for adult tumors, regardless of tumor grade. Furthermore, the frequency of
p53
mutations in high-grade astrocytomas is significantly lower in pediatric tumors than in adult tumors. These results suggest that
p53
is not important in the oncogenesis of pediatric astrocytomas. Oncogenesis in pediatric astrocytomas may occur by different mechanisms than those of similar tumors in adults.
...
PMID:The lack of a role for p53 in astrocytomas in pediatric patients. 808 7
Mutations of the
p53
gene are found in various human cancers. The frequency of its mutation is reported to increase during tumor progression in most tumors. In human gliomas, mutations of the
p53
gene are found in about one-third of the malignant forms and in few of the benign ones, indicating their possible involvement in tumor progression. On the other hand, we have recently shown that basic fibroblast growth factor (basic FGF) plays a crucial role in tumor progression as an autocrine growth factor in tissues of human gliomas. Therefore, we hypothesized that
p53
might regulate the promoter activity of the basic FGF gene, which has several GC boxes and no typical TATA box. In this study, cotransfection assays using human
glioblastoma
and hepatocellular carcinoma cells and establishment of stable cell lines expressing mutant-type
p53
were performed. The basic FGF gene promoter was demonstrated to be regulated by
p53
at the transcriptional level and its basal core promoter was found to be responsive to
p53
. Expression of endogenous basic FGF was also demonstrated to be activated by mutant type
p53
. Wild-type
p53
repressed gene expression of the basic FGF and its mutant activated it in vitro, implying one of the possible pathways in tumor progression.
...
PMID:Transcriptional regulation of basic fibroblast growth factor gene by p53 in human glioblastoma and hepatocellular carcinoma cells. 809 Jul 61
We analysed 31 non-
glioblastoma
astrocytomas for alterations in
p53 protein
expression and for mutations in the
p53
gene. Immunohistochemistry detected
p53 protein
accumulation in 71% (five of seven) of juvenile pilocytic astrocytomas (WHO grade I), 63% (five of eight) of astrocytomas (WHO grade II), and 63% (10 of 16) of anaplastic astrocytomas (WHO grade III). The single strand conformation polymorphism (SSCP) assay of exons 2-11 of the
p53
gene and direct DNA sequencing identified
p53
mutations in 14% (one of seven) of grade I, 25% (two of eight) of grade II, and 19% (three of 16) of grade III astrocytomas. This is the first report of a
p53
mutation in grade I juvenile pilocytic astrocytomas. Immunohistochemistry and SSCP analyses gave concordant results in 55% (17 of the 31) of the tumors. A total of 14 tumors, 60-80% within each grade, showed
p53 protein
accumulation in the absence of detectable mutations of the
p53
gene. No mdm-2 gene amplification was found in these tumors. The similar frequency of
p53
alterations in tumors of grades I-III suggests that the
p53
gene plays a significant role early in the formation of astrocytomas rather than late in tumor progression to higher grade. The data suggest that mechanisms other than
p53
gene inactivation by mutation or mdm-2 complex formation result in the accumulation of
P53
protein in > 70% of non-
glioblastoma
astrocytomas.
...
PMID:High frequency of p53 protein accumulation without p53 gene mutation in human juvenile pilocytic, low grade and anaplastic astrocytomas. 810 40
Transforming growth factor-beta (TGF-beta) has been implicated as a potent growth regulator; the degree of responses to it, whether positive or negative, generally correlates with the stage of cell differentiation in various cell types. We examined the effect of the
p53
gene, which participates in the control of cell-cycle progression, on the expression of human TGF-beta. The human
glioblastoma
cell line SNB-19, which expresses the latent form of TGF-beta, was transfected with a retroviral vector containing wild-type
p53
(wt-p53) or
p53
with a mutation (mut-p53) at codon 273. Stable G418-resistant SNB-19 clones were isolated. The growth kinetics of wt-
p53
transfectants were suppressed compared with those of parental cells, vector transfectants, or mut-
p53
transfectants, as assayed by growth-curve measurements and 3H-thymidine incorporation; however, RNA dot blot and Western blot analyses demonstrated that wt-
p53
and mut-
p53
transfectants expressed higher amounts of TGF-beta 1 and TGF-beta 2 mRNA and intracellular TGF-beta isoform proteins, respectively, than parental cells. By means of the biological assay for active TGF-beta (Mv1Lu cell-growth-inhibition assay), we observed that both transfectants produced active TGF-beta, whereas the parental cells produced only the latent form. These results suggest that, while only the wt-
p53
gene inhibits tumor-cell progression, both wt-
p53
and codon 273-mutated
p53
can cause increased TGF-beta expression.
...
PMID:Retroviral-mediated transduction of p53 gene increases TGF-beta expression in a human glioblastoma cell line. 811 73
Immunohistochemical analysis of the
p53 protein
in human glioblastomas with known genetic profiles of
p53
mutations and allele losses on chromosome 17p demonstrated a heterogeneous pattern of subcellular compartmentalization of the
p53 protein
. Tumors with a single wild type copy of the
p53
gene but with allelic deletions on chromosome 17p exhibit nuclear and/or cytoplasmic accumulation of
p53
, whereas tumors with both copies of the wild type gene and no allele losses on chromosome 17 do not accumulate
p53
.
Glioblastomas
with one normal and one mutated copy of the
p53
gene and allelic deletions on 17p distal to
p53
, on the other hand, show predominantly cytoplasmic staining, probably originating from the wild type
p53 protein
. Furthermore, tumors with mutations in the same codon of
p53
display quite different intracellular distribution suggesting that, in addition to the genotype of
p53
, the intracellular microenvironment of a particular tumor is important in determining the subcellular localization of the
p53 protein
.
...
PMID:Heterogeneity of subcellular localization of p53 protein in human glioblastomas. 826 27
Chromosome 17p has been shown to be an early and frequent target for loss of heterozygosity through mitotic recombination in astrocytomas. These losses are frequently accompanied by point mutations in the
p53
gene of the remaining allele, resulting in loss of wild type
p53
function. However, a fraction of astrocytomas retain constitutional heterozygosity and do not have
p53
mutations; some of these lose wild type
p53
activity through binding to the protein product of amplified mdm2 genes. To test whether loss of wild type
p53
biological function is a necessary step in astrocytoma progression we analyzed
p53
expression and biological function in 13 glioma cell lines. All the cell lines expressed a 2.8-kilobase
p53
transcript and showed various amounts of
p53 protein
by immunoprecipitation, except for cell line LN-Z308 which had only a small truncated p53 mRNA and no protein expression. To test whether the
p53
expressed in these cell lines was functionally wild type or mutant we transfected them with a plasmid construct harboring a chloramphenicol acetyltransferase (CAT) reporter gene under the control of transcriptional elements that are induced by wild type but not mutant p53. Four lines were shown to retain wild type
p53
function. Sequencing of the
p53
gene in two of these cell lines confirmed the wild type genotype. These results show that inactivation of the
p53
gene is not an obligatory step in
glioblastoma
genesis. This suggests either that two pathways (
p53
inactivation dependent or independent) may lead to a tumor group classified histologically as
glioblastoma
or that in some cases
p53
mutations are bypassed due to the presence of mutations in downstream effector genes.
...
PMID:Analysis of the p53 gene and its expression in human glioblastoma cells. 830 26
The product of the
p53
gene suppresses cell growth and plays a critical role in suppressing development of human tumors.
p53 protein
binds DNA, activates transcription, and can be phosphorylated at N- and C-terminal sites. Previously, wild-type
p53
was shown to be hyperphosphorylated compared to mutant p53 during
p53
-mediated growth arrest in vivo. Here we show that Ser-15 and Ser-9 in the N-terminal transactivation domain of wild-type human
p53
are phosphorylated in vivo in cells derived from the human
glioblastoma
line T98G. In [Ile237]
p53
and [Ala143]
p53
, two natural
p53
mutants from human tumors that are defective for activation of transcription, phosphorylation at Ser-15 was reduced and phosphorylation at Ser-392 was increased compared to wild-type
p53
. No change was observed at Ser-9. [His273]
p53
, a third mutant, had a phosphorylation state similar to that of wild-type
p53
. We suggest that phosphorylation of Ser-15 may depend on the ability of
p53
to adopt a wild-type conformation and may contribute to
p53
's ability to block cell growth.
...
PMID:Phosphorylation at Ser-15 and Ser-392 in mutant p53 molecules from human tumors is altered compared to wild-type p53. 832 66
It is known that transfer of the wild-type
p53
gene into
p53
-negative cells from transgenic mice increases their sensitivity to drug and radiation-induced apoptosis. However, unlike many human tumors, these transgenic cells do not express mutant p53, and it is not known from these earlier studies whether wild-type
p53
dominates the effects of mutant p53 with respect to drug and radiation sensitivity. We addressed this question in
glioblastoma
, a disease characterized by an unusually high level of intrinsic resistance to therapy and poor prognosis: mean survival time from diagnosis is only about 1 yr. We introduced the gene for wild-type
p53
into human T98G
glioblastoma
cells, which express endogenous mutant p53 but not wild-type
p53
. Stable transfectants that co-expressed mutant and wild-type
p53
had enhanced sensitivity to cisplatin and gamma radiation, compared with parental cells, control vector-transduced cells, and transduced cells that had lost expression of wild-type
p53
. Transient wild-type
p53
expression after high-efficiency gene transfer by a
p53
adenovirus also sensitized the cells to cisplatin and correlated with the induction of apoptosis. The sensitization effect was also observed in
p53
adenovirus-infected H23 small cell lung carcinoma cells, which express endogenous mutant p53. Therefore, wild-type
p53
gene transfer has dominant effects over mutant p53 in sensitizing tumor cells to therapy, which supports the potential of
p53
gene therapy to enhance the efficacy of traditional therapy.
...
PMID:Use of wild-type p53 to achieve complete treatment sensitization of tumor cells expressing endogenous mutant p53. 851 17
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