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Query: UMLS:C0017636 (
glioblastoma
)
18,345
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Gene amplification is known to occur frequently in human glioma. Recently we reported cloning of a novel gene termed glioma-amplified sequence 16 (GAS16) by microdissection-mediated cDNA capture. In this article, we demonstrate that GAS16 results from an alternative splicing process of the
Ku70 binding protein 3
(
KUB3
) that is essential for DNA double-strand break repair. The alternative splice product was found in
glioblastoma
and in normal fetal brain. We determined the amplification frequency of
KUB3
in glioma with different grading. We analyzed a total of 102 glioma primary tumors and found
KUB3
to be amplified in 12/82 (14%) glioblastomas, 4/13 anaplastic astrocytomas (30%), and 2/4 astrocytomas, but in none of three pilocytic astrocytomas. Northern blot analysis of
glioblastoma
shows a strong correlation between
KUB3
amplification and overexpression. Amplification of
KUB3
appears to be independent of other genetic changes frequently associated with the development of gliomas, including EGFR amplification, LOH of TP53, and LOH of chromosome 10. The
KUB3
amplification and overexpression may interfere with the function of
KUB3
in the DNA-PK complex involved in the maintenance of genome stability and reduction of mutation frequency.
...
PMID:KUB3 amplification and overexpression in human gliomas. 1157 79
Glioblastoma
is the most frequent primary brain tumor in adults. The average survival time of less than 1 year did not improve notably over the last three decades. The dismal prognosis of
glioblastoma
patients is largely due to the striking radioresistance of this tumor. Here, we attempt a combined view on the genetics, the repair mechanisms and the radioresistance of
glioblastoma
. Specifically, we address the role of DNA-PKcs and the novel potential end-joining factor
KUB3
in maintaining the radioresistant phenotype, the interrelationship between genetic lesions and repair mechanisms, and new perspectives that emerge from the identification of
glioblastoma
stem cells.
...
PMID:Glioblastoma multiforme: the role of DSB repair between genotype and phenotype. 1806 94
To further understand the biological significance of amplifications for glioma development and recurrencies, we characterized amplicon frequency and size in low-grade glioma and amplicon stability in vivo in recurring
glioblastoma
. We developed a 12q13-21 amplicon-specific genomic microarray and a bioinformatics amplification prediction tool to analyze amplicon frequency, size, and maintenance in 40 glioma samples including 16
glioblastoma
, 10 anaplastic astrocytoma, 7 astrocytoma WHO grade 2, and 7 pilocytic astrocytoma. Whereas previous studies reported two amplified subregions, we found a more complex situation with many amplified subregions. Analyzing 40 glioma, we found that all analyzed
glioblastoma
and the majority of pilocytic astrocytoma, grade 2 astrocytoma, and anaplastic astrocytoma showed at least one amplified subregion, indicating a much higher amplification frequency than previously suggested. Amplifications in low-grade glioma were smaller in size and displayed clearly different distribution patterns than amplifications in
glioblastoma
. One
glioblastoma
and its recurrencies revealed an amplified subregion of 5 Mb that was stable for 6 years. Expression analysis of the amplified region revealed 10 overexpressed genes (i.e.,
KUB3
, CTDSP2, CDK4, OS-9, DCTN2, RAB3IP, FRS2, GAS41, MDM2, and RAP1B) that were consistently overexpressed in all cases that carried this amplification. Our data indicate that amplifications on 12q13-21 (a) are more frequent than previously thought and present in low-grade tumors and (b) are maintained as extended regions over long periods of time.
...
PMID:A different view on DNA amplifications indicates frequent, highly complex, and stable amplicons on 12q13-21 in glioma. 1840 36
There is limited knowledge on the in vivo behavior of amplified regions in human tumors. First evidence indicates that amplicon structures are largely maintained in recurrent tumors. Here, we investigated the fate of amplified regions in several independent cases of recurrent
glioblastoma
and the possible association of 12q13-21 amplifications and survival. We analyzed 12q13-21 amplicon numbers and sizes in
glioblastoma
and their recurrences by array-CGH. The majority of the 12q13-21 amplicons found in the original tumor are lost in the subsequent recurrence. Likewise, the majority of the amplicons found in the first recurrence are lost in the second recurrence. The remaining amplicons of recurrences often expanded or were maintained in size. Because of re-emergences and de novo appearances of amplicons, however, the overall number of amplicons did not decrease in the recurrences. Understanding genetic changes including gene amplifications in the development of tumor recurrences will contribute to rational therapeutic strategies for an improved patient survival. We recognized a significant longer survival time in
glioblastoma
patients that lack amplifications of either CDK4, CYP27B1, XRCC6BP1 (
KUB3
), or MDM2.
...
PMID:Amplicons on chromosome 12q13-21 in glioblastoma recurrences. 1983 52
Human glioblastomas are characterized by frequent DNA amplifications most often at chromosome regions 7p11.2 and 12q13-15. Although amplification is a well-known hallmark of
glioblastoma
genetics the function of most amplified genes in
glioblastoma
biology is not understood. Previously, we cloned
Ku70-binding protein 3
(
KUB3
) from the amplified domain at 12q13-15. Here, we report that
glioblastoma
cell cultures with endogenous
KUB3
gene amplification and with elevated
KUB3
protein expression show an efficient double-strand break (DSB) repair after being irradiated with 1 Gy. A significantly less efficient DSB repair was found in glioma cell cultures without
KUB3
amplification and expression. Furthermore, we found that a siRNA-mediated reduction of the endogenous
KUB3
expression in
glioblastoma
cells resulted in a reduction of the repair efficiency. HeLa cells transfected with
KUB3
showed an increased DSB repair in comparison to untreated HeLa cells. In addition,
KUB3
seems to influence DSB efficiency via the DNA-PK-dependent repair pathway as shown by simultaneous inhibition of
KUB3
and DNA-PK. The data provide the first evidence for a link between the level of
KUB3
amplification and expression in glioma and DSB repair efficiency.
...
PMID:Glioma-amplified sequence KUB3 influences double-strand break repair after ionizing radiation. 2367 May 97
