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Query: UMLS:C0017636 (
glioblastoma
)
18,345
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In malignant gliomas, the characteristically heterogeneous features and frequent diffuse spread within the brain have raised the question of whether malignant gliomas arise monoclonally from a single precursor cell or polyclonally from multiple transformed cells forming confluent clones. Although monoclonality has been shown in surgically resected tissues, these may not include the full spectrum of patterns seen on autopsy material. Little is known about the clonality of low-grade gliomas from which malignant gliomas may sometimes arise. We sought to investigate the clonality of low-grade and malignant gliomas by using and comparing surgical and autopsy material with a Polymerase chain reaction (PCR)-based assay for nonrandom X chromosome inactivation. For that, purpose, archival surgical and autopsy material from 15 female patients (group A) (age 4 to 73 years; median, 45) with malignant gliomas (12 glioblastomas, one gliosarcoma, one anaplastic oligoastrocytoma, one gliomatosis cerebri), surgical material only from 21 female patients (group S) (age 6 to 78 years; median, 60) with low-grade and malignant gliomas (four low-grade astrocytomas, three oligoastrocytomas, two anaplastic astrocytomas, one gemistocytic astrocytoma, four oligodendrogliomas, seven glioblastomas) were analyzed. In group A, representative areas (mean = 5/patient; median = 7) were microdissected from tissue sections and assayed by PCR amplification of a highly polymorphic microsatellite marker locus of the human
androgen receptor
gene (HUMARA) in the presence of alpha32P with and without predigestion with a methylation-sensitive restriction enzyme (HhaI). Products were resolved by denaturing gel electrophoresis and autoradiographed. In group S, selected tumor areas were used for the assay. Each patient's normal brain tissue was used for control. The band intensity of alleles were measured by densitometric scanning. In group A, 13 of 15 cases were informative (heterozygous). The same pattern of nonrandom X chromosome inactivation was present in all areas of solid dense and moderate tumor infiltration in eight including all components of the gliosarcoma. Two of eight also showed focal loss of heterozygosity (LOH). One of 13 presented global LOH. Two of 13 showed microsatellite instability, one of which in a patient with Turcot syndrome, the other in gliomatosis cerebri. Opposite skewing patterns were seen in distant areas of gliomatosis cerebri consistent with oligoclonal derivation. Clonality remained indeterminate in one
glioblastoma
and in the anaplastic oligoastrocytoma because of skewed lyonization in the normal control. In group S, 19 of 21 cases were informative. Fifteen of 19 were monoclonal (four low-grade astrocytomas, one anaplastic astrocytoma, one gemistocytic astrocytoma, two oligodendrogliomas, one oligoastrocytoma, six glioblastomas). Four of 19 were indeterminate. We conclude that (1) Low-grade and malignant gliomas are usually monoclonal tumors, and extensively infiltrating tumors must result from migration of tumor cells (2) Gliomatosis cerebri may initiate as an oligoclonal process or result from collision gliomas (3) Biphasic gliomas likely arise from a single precursor cell. (4) LOH at the HUMARA locus is probably related to partial or complete deletion of an X-chromosome, which occurs in malignant gliomas during clonal evolution.
...
PMID:Clonal analysis of gliomas. 934 24
Monoamine oxidase (MAO) A is a key enzyme for the degradation of neurotransmitters serotonin, norepinephrine, and dopamine. There are three consensus glucocorticoid/androgen response elements and four Sp1-binding sites in the human monoamine oxidase A 2-kb promoter. A novel transcription factor R1 (RAM2/CDCA7L) interacts with Sp1-binding sites and represses MAO A gene expression. Luciferase assays show that glucocorticoid (dexamethasone) and androgen (R1881) increase MAO A promoter and catalytic activities in human neuroblastoma and
glioblastoma
cells. Gel-shift analysis demonstrates that glucocorticoid/androgen receptors interact directly with the third glucocorticoid/androgen response element. Glucocorticoid/androgen receptors also interact with Sp1-binding sites indirectly via transcription factor Sp1. In addition, dexamethasone induces R1 translocation from the cytosol to the nucleus in a time-dependent manner in both the neuroblastoma and wild-type UW228 cell lines but not in R1 knock-down UW228 cells. In summary, this study shows that glucocorticoid enhances monoamine oxidase A gene expression by 1) regulation of R1 translocation; 2) direct interaction of the glucocorticoid receptor with the third glucocorticoid/androgen response element; and 3) indirect interaction of glucocorticoid receptor with the Sp1 or R1 transcription factor on Sp1-binding sites of the MAO A promoter. Androgen also up-regulates MAO A gene expression by direct interaction of
androgen receptor
with the third glucocorticoid/androgen response element. Androgen receptor indirectly interacts with the Sp1, but not R1 transcription factor, on Sp1-binding sites. This study provides new insights on the differential regulation of MAO A by glucocorticoid and androgen.
...
PMID:Glucocorticoid and androgen activation of monoamine oxidase A is regulated differently by R1 and Sp1. 1672 2
Glioblastoma multiforme (GBM), a malignancy characterized by its rapid progression, presents a lower risk of occurrence in women during their reproductive years. Necrosis of brain tissue during tumor invasion releases free lipids, and therefore might release contaminants stored in phospholipid-rich neuronal tissue. This study assesses the growth response of two human
glioblastoma
cell lines, T98G and U138-MG, treated with environmental chemicals known or likely to persist within the brain. Persistent chlorinated pesticides, industrial contaminants, persistent perfluorinated chemicals, and steroid hormones were assayed over a range of concentrations. Although cytotoxic effects were seen in both T98G and U138-MG cells, proliferative responses occurred only in the T98G cell line. Dichlorodiphenyltrichloroethane (DDT), dichlorodiphenyldichloroethylene (DDE), and polychlorinated biphenyl (PCB) 153 were cytotoxic in both lines at 5000 nM. Perfluorodecanoic acid (PFDA), perfluorooctane sulfonate (PFOS), and testosterone stimulated proliferation in the T98G cells at 500, 1000, and 1000 nM, respectively. However, a perfluorinated salt (ammonium perfluorooctanoate; C8) and a weak androgen (dihydroepiandrosterone; DHEA) did not affect relative cell number in this GBM line, suggesting the proliferative effect is not through the activation of an
androgen receptor
. Exposure to environmental chemicals that result in a mitogenic response may increase the rate of
glioblastoma
tumor growth and result in the development of more aggressive forms of GBM tumors.
...
PMID:Influence of persistent contaminants and steroid hormones on glioblastoma cell growth. 1716 96
The median survival time of patients with
glioblastoma
is still poor (14.6 month), partly due to a lack of effective treatment. We have observed that
androgen receptor
(AR) is amplified in glioblastomas at the DNA, RNA and protein levels. The AR gene was amplified in 27% of
glioblastoma
specimens from men (n=22) and of 38.2% from women (n=21). AR-RNA was overexpressed (>2.5 fold) in 93% (n=30), and AR-protein was induced (>two fold) in 56% of the glioblastomas samples (n=16). Thirty percent of the glioblastomas (n=21) also expressed a constitutively active AR-splice-variant (AR-V7/AR3) lacking the Ligand-Binding-Domain. Following these findings, we examined the effect of pharmacological inhibition of
androgen receptor
in vitro
and
in vivo
, as well as of genetic silencing of the receptor in
glioblastoma
cell lines. AR antagonists, induced concentration-dependent death in three
glioblastoma
cell lines, as well as in two glioma initiating cell lines. Silencing of AR expression by siRNA induced cell death in the three tested
glioblastoma
cell lines. Enzalutamide given orally to nude mice bearing subcutaneous human glioma xenografts resulted in a 72% reduction in tumor volume (p=0.0027). The presence of AR-V7/AR3 in
glioblastoma
, together with the present data showing that genetic silencing of the full length AR in cell lines and pharmacological inhibition of AR, induce GBM cell death
in vivo
and
in vitro
, point to the important role of AR in GBM survival and render a potential therapeutic target for this devastating disease.
...
PMID:Androgen receptor: a potential therapeutic target for glioblastoma. 2973 97
Glioblastomas
(
GBM
) are the most frequent and aggressive human brain tumors due to their high capacity to migrate and invade normal brain tissue. Epidemiological data report that
GBM
occur in a greater proportion in men than in women (3:2), suggesting the participation of sex hormones in the development of these tumors. It has been reported an increase in testosterone (T) levels in patients with
GBM
. In addition,
androgen receptor
(AR) is overexpressed in human
GBM
, and genetic silencing of AR, and its pharmacological inhibition, induce
GBM
cell death
in vivo
and
in vitro
. However, the role of T in proliferation, migration and invasion in human
GBM
cell lines has not been evaluated. We observed that T increased the number of U87, U251, and D54 cells derived from human
GBM
due to an increase in cell proliferation. This induction was blocked with flutamide, an antagonist of AR. T also induced migration and invasion of
GBM
cells that flutamide partially blocked. These data suggest that T through AR contributes to the progression of
GBM
by promoting proliferation, migration, and invasion.
...
PMID:Testosterone Promotes Glioblastoma Cell Proliferation, Migration, and Invasion Through Androgen Receptor Activation. 3077 32
New approaches are needed to overcome intrinsic therapy resistance in
glioblastoma
(
GBM
). Because GBMs exhibit sexual dimorphism and are reported to express steroid hormone receptors, we reasoned that signaling through the
androgen receptor
(AR) could mediate therapy resistance in
GBM
, much as it does in AR-positive prostate and breast cancers. We found that nearly half of
GBM
cell lines, patient-derived xenografts (PDX), and human tumors expressed AR at the transcript and protein level-with expression levels overlapping those of primary prostate cancer. Analysis of gene expression datasets also revealed that AR expression is higher in
GBM
patient samples than normal brain tissue. Multiple clinical-grade antiandrogens slowed the growth of and radiosensitized AR-positive
GBM
cell lines and PDXs
in vitro
and
in vivo
Antiandrogens blocked the ability of AR-positive
GBM
PDXs to engage adaptive transcriptional programs following radiation and slowed the repair of radiation-induced DNA damage. These results suggest that combining blood-brain barrier permeable antiandrogens with radiation may have promise for patients with AR-positive GBMs.
...
PMID:Expression of the Androgen Receptor Governs Radiation Resistance in a Subset of Glioblastomas Vulnerable to Antiandrogen Therapy. 3279 1
Glioblastoma
(
GBM
) is the most common and aggressive primary brain tumor with great invasiveness and resistance to chemotherapy, which presents a treatment challenge. In this study, we investigated the antitumor effect of Cedrol, a sesquiterpene alcohol isolated from Cedrus atlantica, against
GBM
cells in vitro and in vivo. Cedrol was found to potently inhibit cell growth and induce intracellular ROS generation and DNA damage response. In addition, Cedrol induced significant G
0
/G
1
cell cycle arrest and cell apoptosis via the extrinsic (Fas/FasL/Caspase-8) and intrinsic (Bax/Bcl-2/Caspase-9) pathways. In addition, Cedrol had a synergistic effect with temozolomide (TMZ) and reduced drug resistance by blockage of the AKT/mTOR pathway. Cedrol suppressed tumor growth in both orthotopic and xenograft
GBM
animal models with low or no short-term acute toxicity or long-term accumulative toxicity. In a molecular docking study, Cedrol targeted the
androgen receptor
(AR), and reduced DHT-mediated AR nuclear translocation, downstream gene KLK3/TMPRSS2 expression and cell proliferation. Our study demonstrates that Cedrol may be a potential candidate for drug development for single or combination treatment with TMZ in
GBM
therapy.
...
PMID:Cedrol suppresses glioblastoma progression by triggering DNA damage and blocking nuclear translocation of the androgen receptor. 3298 40
