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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The induction and repair of DNA double-strand breaks were studied in cells of two isogenic human malignant
glioma
cell lines which vary in their SF2 values by a factor of approximately 30. M059J cells are radiosensitive (SF2 = 0.02) and lack the p350 component of
DNA-dependent protein kinase
(
DNA-PK
); M059K cells are radioresistant (SF2 = 0.64) and express normal levels of
DNA-PK
. Zero integrated field gel electrophoresis and alkaline sucrose gradient experiments indicated that equivalent numbers of DNA lesions were produced by ionizing radiation in M059J and M059K cells. To compare the capacity of both lines to repair sublethal damage, the split-dose recovery experiment after exposure to equitoxic doses of radiation was carried out. Significant sublethal damage repair was shown for M059K cells, with a 5.8-fold increase in relative survival peaking at 4 h, whereas M059J cells showed little repair activity. Electrophoresis studies indicated that more double-strand breaks were repaired by 30 min in M059K cells than in M059J cells. These results suggest that deficient DNA repair processes may be a major determinant of radiosensitivity in M059J cells.
...
PMID:Radiation-induced DNA damage and repair in cells of a radiosensitive human malignant glioma cell line. 749 72
Lack of
DNA-dependent protein kinase
(
DNA-PK
) activity confers radiosensitivity and defective DNA double-strand break repair. Nine human malignant
glioma
cell lines were studied to determine whether differences in
DNA-PK
activity reflect differences in inherent radiosensitivity or are predictive of tumor treatment response.
DNA-PK
activity was present in all cell extracts, as were the
DNA-PK
proteins,
DNA-PK catalytic subunit
, Ku p70, and Ku p80. No correlation was found between the levels of
DNA-PK
activity and inherent radiosensitivity or in the tumor treatment response. These preliminary results suggest that variation in
DNA-PK
activity may not be a determinant of clinical response in malignant
glioma
.
...
PMID:Lack of correlation between DNA-dependent protein kinase activity and tumor cell radiosensitivity. 758 74
The radiosensitive rodent mutant cell line xrs-5 is defective in DNA double-strand break repair and lacks the Ku component of the DNA-activated protein kinase,
DNA-PK
. Here radiosensitive human cell lines were analyzed for
DNA-PK
activity and for the presence of related proteins. The radiosensitive human malignant
glioma
M059J cell line was found to be defective in DNA double-strand break repair, but fails to express the p350 subunit of
DNA-PK
. These results suggest that
DNA-PK
kinase activity is involved in DNA double-strand break repair.
...
PMID:Absence of p350 subunit of DNA-activated protein kinase from a radiosensitive human cell line. 785 2
Radiosensitive cell lines derived from X-ray cross complementing group 5 (XRCC5), SCID mice and a human
glioma
cell line lack components of the
DNA-dependent protein kinase
,
DNA-PK
, suggesting that
DNA-PK
plays an important role in DNA double-strand break repair. Another enzyme implicated in DNA repair, poly(ADP-ribose) polymerase, is cleaved and inactivated during apoptosis, suggesting that some DNA repair proteins may be selectively targeted for destruction during apoptosis. Here we demonstrate that
DNA-PKcs
, the catalytic subunit of
DNA-PK
, is preferentially degraded after the exposure of different cell types to a variety of agents known to cause apoptosis. However, Ku, the DNA-binding component of the enzyme, remains intact. Degradation of
DNA-PKcs
was accompanied by loss of
DNA-PK
activity. One cell line resistant to etoposide-induced apoptosis failed to show degradation of
DNA-PKcs
. Protease inhibitor data implicated an ICE-like protease in the cleavage of
DNA-PKcs
, and it was subsequently shown that the cysteine protease CPP32, but not Mch2alpha, ICE or TX, cleaved purified
DNA-PKcs
into three fragments of comparable size with those observed in cells undergoing apoptosis. Cleavage sites in
DNA-PKcs
, determined by antibody mapping and microsequencing, were shown to be the same for CPP32 cleavage and for cleavage catalyzed by extracts from cells undergoing apoptosis. These observations suggest that
DNA-PKcs
is a critical target for proteolysis by an ICE-like protease during apoptosis.
...
PMID:DNA-dependent protein kinase catalytic subunit: a target for an ICE-like protease in apoptosis. 867 Aug 24
Cells respond to radiation-induced DNA damage in a cell cycle phase-specific manner as shown by (1) variation in radiosensitivity across the cell cycle and (2) checkpoints in G1 and G2 phase at which arrest of progression of cells through the phases of the cell cycle occurs. We studied these processes in cells of human
glioma
cell lines which lack (M059J(PK-)) or express (M059K(PK+))
DNA-dependent protein kinase
(
DNA-PK
) activity. Cell populations enriched with cells of a specific cell cycle phase were y-irradiated and analyzed for cell survival. Although both cell lines were relatively sensitive in G1 phase and resistant in S phase, the differential sensitivity was greater in M059J(PK-) cells. In the studies on checkpoints, unsynchronized cells were irradiated and examined for evidence of cell cycle arrest. Neither cell line showed a postirradiation G1-phase arrest, presumably because of mutant p53 status. For M059J(PK-) cells, all doses tested (2.5-10 Gy) resulted in a significant increase in the proportion of G2/M-phase cells; however, for M059K(PK+) cells, a significant increase in G2/M phase was observed only after 10 Gy. These results suggest that the ability to activate the G2-phase checkpoint remains intact in cells which lack
DNA-PK
activity.
...
PMID:Intact G2-phase checkpoint in cells of a human cell line lacking DNA-dependent protein kinase activity. 905 73
The analysis of the role of
DNA-dependent protein kinase
(
DNA-PK
) in DNA double-strand break repair and V(D)J recombination is based primarily on studies of murine scid, in which only the C-terminal 2% of the protein is deleted and the remaining 98% is expressed at levels that are within an order of magnitude of normal. In murine scid, signal joint formation is observed at normal levels, even though coding joint formation is reduced over three orders of magnitude. In contrast, a closely associated protein, Ku, is necessary for both coding and signal joint formation. Based on these observations, a reasonable hypothesis has been that absence of the
DNA-PK
protein (rather than merely its C-terminal 2% truncation) would ablate signal joint formation along with coding joint formation. In fact, a study of equine SCID, in which there is a much larger truncation of the
DNA-PK
protein, has suggested that signal joints do fail to form. In our current study, we have analyzed signal and coding joint formation in a malignant
glioma
cell line, M059J, which was previously shown to be deficient in
DNA-PK
. Our quantitative analysis shows that full-length protein levels are reduced at least 200-fold, to a level that is undetectable, yet signal joint formation occurs at wild-type levels. This result demonstrates that at least this form of non-homologous DNA end joining can occur in the absence of
DNA-PK
.
...
PMID:DNA-PK is essential only for coding joint formation in V(D)J recombination. 970 2
The tumour suppressor p53 becomes activated as a transcription factor in response to DNA damage, but the mechanism for this activation is unclear. A good candidate for an upstream activator of p53 is the
DNA-dependent protein kinase
(
DNA-PK
) that depends on the presence of DNA breaks for its activity. Here we investigate the link between DNA damage and the activation of
DNA-PK
and of p53. To determine whether
DNA-PK
is an upstream mediator of the p53 DNA-damage response, we analysed a severe combined-immunodeficiency (SCID) mouse cell line, SCGR11, and the human
glioma
cell line M059J . Both cell lines lack any detectable
DNA-PK
activity. We find that p53 is incapable of binding to DNA in the absence of
DNA-PK
, that
DNA-PK
is necessary but not sufficient for activation of p53 sequence-specific DNA binding, and that this activation occurs in response to DNA damage. Our results establish
DNA-PK
as a link between DNA damage and p53 activation, and reveal the existence of a mammalian DNA-damage-response pathway.
...
PMID:DNA-dependent protein kinase acts upstream of p53 in response to DNA damage. 971 37
We have previously reported that the incision efficiency of the nucleotide excision repair (NER) reaction measured in vitro with cell-free human protein extracts was reduced by up to 80% on a linearized damaged plasmid DNA substrate when compared to supercoiled damaged DNA. The inhibition stemed from the presence of the DNA-end binding Ku70/Ku80 heterodimer which is the regulatory subunit of the
DNA-dependent protein kinase
(
DNA-PK
). Here, the origin of the repair inhibition was assessed by a new in vitro assay in which circular or linear plasmid DNA, damaged or undamaged, was quantitatively adsorbed on sensitized microplate wells. The binding of two NER proteins, XPA and p62-TFIIH, indispensable for the incision step of the reaction, was quantified either directly in an ELISA-like reaction in the wells with specific antibodies or in Western blotting experiments on the DNA-bound fraction. We report a dramatic inhibition of XPA and p62-TFIIH association with UVC photoproducts on linear DNA. XPA and p62-TFIIH binding to DNA damage was regained when the reaction was performed with extracts lacking Ku activity (extracts from xrs6 rodent cells) whereas addition of purified human Ku complex to these extracts restored the inhibition. Despite the fact that
DNA-PK
was active during the NER reaction, the mechanism of inhibition relied on the sole Ku complex, since mutant protein extracts lacking the catalytic
DNA-PK
subunit (extracts from the human M059J
glioma
cells) exhibited a strong binding inhibition of XPA and p62-TFIIH proteins on linear damaged DNA, identical to the inhibition observed with the DNA-PK+ control extracts (from M059K cells).
...
PMID:Ku70/Ku80 protein complex inhibits the binding of nucleotide excision repair proteins on linear DNA in vitro. 983 19
DNA-dependent protein kinase
(
DNA-PK
) functions in double-strand break repair and immunoglobulin [V(D)J] recombination. We previously established a radiation-sensitive human cell line, M059J, derived from a malignant
glioma
, which lacks the catalytic subunit (
DNA-PKcs
) of the
DNA-PK
multiprotein complex. Although previous Northern blot analysis failed to detect the
DNA-PKcs
transcript in these cells, we show here through quantitative studies that the transcript is present, albeit at greatly reduced (approximately 20x) levels. Sequencing revealed no genetic alteration in either the promoter region, the kinase domain, or the 3' untranslated region of the
DNA-PKcs
gene to account for the reduced transcript levels. Nuclear run-on transcription assays indicated that the rate of
DNA-PKcs
transcription in M059J and
DNA-PKcs
proficient cell lines was similar, but the stability of the
DNA-PKcs
message in the M059J cell line was drastically (approximately 20x) reduced. Furthermore, M059J cells lack an alternately spliced
DNA-PKcs
transcript that accounts for a minor (5-20%) proportion of the
DNA-PKcs
message in all other cell lines tested. Thus, alterations in
DNA-PKcs
mRNA stability and/or the lack of the alternate mRNA may result in the loss of
DNA-PKcs
activity. This finding has important implications as
DNA-PKcs
activity is essential to cells repairing damage induced by radiation or radiomimetric agents.
...
PMID:Differential stability of the DNA-activated protein kinase catalytic subunit mRNA in human glioma cells. 1002 18
The full length of a gene isolated using a methylated DNA binding column as previously reported (Cross et al., 1994) has been cloned. The gene encodes 55 amino acids (6.2 kDa), and has a transcript of approximately 0.45 kb. It has 2 exons in the genome. After searching for sequence homology (BLAST), a homology to hypothetically 6.3 kDa protein located at cosmid ZK652 (protein P34660; EMBL Accession No. L14429) of C. elegans chromosome 3 was noted (51.9% amino acid homology). It has 1 site (-SQ-) for
DNA-dependent protein kinase
(
DNA-PK
) phosphorylation and 2 sites of myristilation. This novel gene is very strongly expressed (about 25.6 times) in
DNA-PK
-deleted human
glioma
cell line (M059J) 2 hrs after ultraviolet (UV) irradiation compared to the
DNA-PK
+/+ cell line (M059K) which expresses the gene at a relatively low level (about 7.5 times). Therefore, this result suggests that
DNA-PK
may negatively regulate the transcriptional level of this gene in M059K cells upon UV damage (50 J/m2), associated with cell toxicity.
...
PMID:Cloning and characterization of the human novel gene encoding 6.2 kDa protein highly expressed upon ultraviolet irradiation in DNA-PK-deleted human glioma M059J cells. 1064 23
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