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Compound
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Target Concepts:
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Query: UMLS:C0017636 (
glioblastoma
)
18,345
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cerebral amyloid angiopathy
(
CAA
) is frequent but often asymptomatic. It can induce lobar haemorrhage, rapidly progressive dementia or recurrent transient neurological symptoms, other presentations being less frequent. We report 3 patients in their sixties presenting with a space occupying lesion which was the first manifestation of
CAA
. They were operated with a diagnosis of cerebral tumour. In all three cases, macroscopy was similar, the lesions were superficial in the cerebral cortex and the preoperative diagnoses were
glioblastoma
, meningioma and cavernoma. Histologically, the lesions consisted of a large inflammatory granuloma with numerous lipophages and siderophages surrounding capillaries with prominent endothelial cells. Vessels in the near cortex and meninges and within the granuloma harboured heavy amyloid deposits immunolabelled by anti-P component, anti-protein beta A4 with a A40 predominance and anti-apolipoprotein E. Adjacent cerebral cortex showed reactive gliosis and rare senile plaques. Amyloidosis is rarely considered among diagnoses of space occupying lesions. In our three cases, CT scan and MRI changes were related to the presence of an inflammatory granuloma around foci of haemorrhage and amyloid laden vessels.
...
PMID:Cerebral amyloid angiopathy (CAA) with presentation as a brain inflammatory pseudo-tumour. 1081 36
Glioblastomas
, the most malignant human brain tumors, are characterized by marked aneuploidy, suggesting chromosomal instability which may be caused by a defective mitotic spindle checkpoint. We screened 22 glioblastomas for mutations in the mitotic spindle check-point genes hBUB1, hBUBR1 and hBUB3. DNA sequencing revealed a silent mutation at codon 144 of hBUB1 (CAG-->
CAA
, Gln-->Gln) in one
glioblastoma
, a silent mutation at codon 952 of hBUBR1 (GAC-->GAT, Asp-->Asp) in another
glioblastoma
, and a silent mutation at codon 388 of the hBUBR1 gene (GCG-->GCA, Ala-->Ala) in 8 glioblastomas. We also observed a known polymorphism at hBUBR1 codon 349 (
CAA
/CGA, Gln/Arg), with an allelic frequency of 0.75 for Gln and 0.25 for Arg, which is similar to that among healthy Caucasian individuals (0.73 vs 0.27). The coding sequence of the hBUB3 gene did not contain any mutation, but in 4 glioblastomas (18%), a C-->T point mutation was detected at position -6 (6 nucleotides upstream of the ATG initiator codon). Analysis of blood DNA of these patients showed identical sequence alterations, indicating that this is a polymorphism. Again, the frequency in glioblastomas was similar to that in healthy Caucasians (15%). We further screened hBUB1 in 18 cases of giant cell glioblastoma, a variant characterized by a predominance of bizarre, multinucleated giant cells. There were no changes, except for a silent mutation at codon 144 in two cases. These results suggest that mutations in these mitotic spindle checkpoint genes do not play a significant role in the causation of chromosomal instability in glioblastomas.
...
PMID:Mutation analysis of hBUB1, hBUBR1 and hBUB3 genes in glioblastomas. 1135
Current knowledge of genetic alterations in glioblastomas is based largely on genetic analyses of tumors from mainly caucasian patients in the United States and Europe. In the present study, screening for several key genetic alterations was performed on 77 primary (de novo) glioblastomas in Japanese patients. SSCP followed by DNA sequencing revealed TP53 mutations in 16 of 73 (22%) glioblastomas and PTEN mutations in 13 of 63 (21%) cases analyzed. Polymerase chain reaction (PCR) showed EGFR amplification in 25 of 77 (32%) cases and p16 homozygous deletion in 32 of 77 (42%) cases. Quantitative microsatellite analysis revealed LOH 10q in 41 of 59 (69%) glioblastomas. The frequencies of these genetic alterations were similar to those reported for primary glioblastomas at the population level in Switzerland. As previously observed for glioblastomas in Europe, there was a positive association between EGFR amplification and p16 deletion (p=0.009), whereas there was an inverse association between TP53 mutations and p16 deletion (p=0.049) in glioblastomas in Japan. Multivariate analyses showed that radiotherapy was significantly predictive for longer survival of
glioblastoma
patients (p=0.002). SSCP followed by DNA sequencing of the kinase domain (exons 18-21) of the EGFR gene revealed mutations in 2 ou of 69 (3%) glioblastomas in Japan and in 4 of 81 (5%) glioblastomas in Switzerland. The allele frequencies of polymorphisms at codon 787 CAG/
CAA
(Gln/Gln) in glioblastomas in Japan were G/G (82.4%), G/A (10.8%), A/A (6.8%), corresponding to G 0.878 versus A 0.122, significantly different from those in glioblastomas in Switzerland: G/G (27.2%), G/A (28.4%), A/A (44.4%), corresponding to G 0.414 versus A 0.586 (p < 0.0001). These results suggest that primary glioblastomas in Japan show genetic alterations similar to those in Switzerland, suggesting a similar molecular basis in caucasians and Asians, despite different genetic backgrounds, including different status of a polymorphism in the EGFR gene.
...
PMID:Genetic alterations in primary glioblastomas in Japan. 1641 Jul 44
