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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Data were collected over a 5-yr period on brain tumours occurring spontaneously among Sprague-Dawley-derived rats in the
HRC
laboratories.
Gliomas
, like meningiomas, tended to occur more among males than in females, and in general appeared to be lesions of older rats. Astrocytic tumours of rats were less differentiated than those in man. The characteristic patterns of human glioblastoma multiforme were not observed in this series. Most of the astrocytomas were located in the cerebral areas. Secondary deposits observed in brain included those from tumours of Zymbal's gland, squamous-cell carcinoma, mammary adenocarcinoma, osteosarcoma and lymphoreticular neoplasms.
...
PMID:Spontaneous brain tumours in Sprague-Dawley rats. 395 59
Chromosome 19q harbors a tumor suppressor gene that is involved in astrocytoma, oligodendroglioma and mixed
glioma
tumorigenesis. We had previously mapped this gene to an approximately 5 megabase region of chromosome 19q13.2-13.3 between APOC2 and
HRC
. To narrow the location of this tumor suppressor further, we studied 138 gliomas for loss of allelic heterozygosity at six microsatellite polymorphisms between APOC2 and
HRC
, including a newly described polymorphism in the ERCC2 gene. Allelic loss occurred in 48 gliomas (35%), including 25 of 41 oligodendroglial tumors (61%). Four cases had proximal breakpoints within the APOC2-
HRC
region, two telomeric to ERCC2 and two telomeric to D19S219. In addition, one of the latter tumors had an interstitial deletion between D19S219 and D19S112, a distance of only 425 kilobases surrounding the DM (myotonic dystrophy) gene. These findings suggest that the
glioma
tumor suppressor on chromosome 19q maps to 19q13.3, telomeric to D19S219 and perhaps centromeric to D19S112. The data exclude a number of candidate genes from 19q13.2-13.3, including a putative phosphatase gene and the DNA repair/metabolism genes ERCC1, ERCC2 and probably LIG1.
...
PMID:Chromosome 19q deletions in human gliomas overlap telomeric to D19S219 and may target a 425 kb region centromeric to D19S112. 766 49
The frequent allelic loss of chromosome 19q in human gliomas suggests that 19q harbors a tumor suppressor gene that is integral to
glioma
tumorigenesis. Our initial deletion mapping of this gene localized the common region of deletion to the distal long arm, 19q13.2-13.4. To bracket the putative tumor suppressor gene further, we have studied this region in 55 gliomas, using loss of heterozygosity studies for 11 well mapped, highly informative microsatellite polymorphisms that cover this area: D19S178; BCL3; APOC2; ERCC1; DM; D19S112;
HRC
; D19S246; KLK; D19S180; and D19S254 (from centromeric to telomeric). Twenty astrocytic, oligodendroglial, and mixed gliomas had deletions affecting this region. Of nine partial deletions, two cases maintained heterozygosity at APOC2 while showing allelic loss at the more telomeric markers, ERCC1 and DM, while five cases maintained heterozygosity at
HRC
but lost the more centromeric markers, D19S112 and DM. Nine cases lost the entire D19S178 to D19S254 region. Three astrocytic gliomas, including one with an interstitial deletion, had terminal deletions of 19q13.4. The minimum area of overlap shared by the interstitial deletions is between APOC2 and
HRC
, including ERCC1, DM, and D19S112. These findings suggest that the
glioma
tumor suppressor gene maps to an approximately 8-cM/5-megabase region on 19q13.2-13.3 between the proximal marker APOC2 and the distal marker
HRC
. Among the DNA repair/DNA metabolism genes on chromosome 19q, ERCC1, LIG1, and perhaps ERCC2 are within the common area of deletion; XRCC1 is centromeric and is therefore excluded as a candidate.
...
PMID:The putative glioma tumor suppressor gene on chromosome 19q maps between APOC2 and HRC. 806 76
The bax protein regulates apoptosis in a cellular pathway that involves both bcl-2 and p53, two molecules associated with human
glioma
tumorigenesis. We therefore evaluated the possibility that BAX functions as a
glioma
tumor suppressor gene. Somatic cell hybrid panels, fluorescence in situ hybridization and cosmid mapping localized the BAX gene to 19q13.3, approximately 300 kb centromeric to
HRC
. Thus BAX maps to the region of chromosome 19 most frequently deleted in gliomas. Routine and pulsed-field gel electrophoresis/Southern blotting studies, however, failed to reveal large-scale deletions or rearrangements of the BAX gene in gliomas. In addition, single strand conformation polymorphism analysis of all six BAX exons and flanking intronic sequences did not disclose mutations in 20 gliomas with allelic loss of the other copy of 19q. A C/T polymorphism was detected in intron 3 and was common in the general population. Therefore, although BAX maps to the
glioma
candidate region on the long arm of chromosome 19, BAX is probably not the 19q
glioma
tumor suppressor gene.
...
PMID:The BAX gene maps to the glioma candidate region at 19q13.3, but is not altered in human gliomas. 864 Jul 22
Allelic loss of chromsome 19q occurs frequently in malignant gliomas, suggesting the presence of a chromosome 19q
glioma
tumor suppressor gene. Deletion mapping studies have delineated a 3.5 Mb candidate region between D19S219 and
HRC
. Cloned sequences from the proximal 425 kb of this interval, however, have not shown tumor-specific alterations. To refine the location of the tumor suppressor gene further, we conducted loss of heterozygosity studies on 191 malignant gliomas using nine PCR-based polymorphisms. These included the previously identified and physically mapped markers D19S219, DM, D19S112,
HRC
and the recently physically mapped polymorphisms at D19S412, STD, D19S596 and GYS. In addition, we isolated a novel microsatellite polymorphism that maps 400 kb telomeric to D19S112. Oligodendroglial tumors showed frequent loss of heterozygosity in all grades, and typically displayed allelic loss at all studied markers. Astrocytomas, however, showed frequent loss primarily in anaplastic astrocytomas and displayed deletion breakpoints within the candidate region. Deletion mapping revealed a minimal region of overlap between D19S412 and STD, a distance of 900 kb. These data suggest that the D19S412-STD interval represents the most likely location for a chromsome 19q
glioma
tumor suppressor gene involved in astrocytoma, and perhaps oligodendroglioma, tumorigenesis.
...
PMID:Refined deletion mapping of the chromosome 19q glioma tumor suppressor gene to the D19S412-STD interval. 895 92
