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Query: UMLS:C0017638 (
glioma
)
30,880
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The cytotoxic cytokine,
CD95 ligand
, is an experimental anti-cancer agent. Here, we describe a novel pathway of drug-mediated augmentation of
CD95 ligand
-induced apoptosis. We report that prolonged pre-exposure of human malignant
glioma
cells to different cytotoxic agents, VM26, cytarabine and cisplatin, induces strong sensitization to
CD95 ligand
-induced apoptosis. CD95 gene transfer does not prevent sensitization, suggesting that sensitization is not mediated by drug-induced CD95 expression. Priming with cytotoxic drugs greatly increases
CD95 ligand
-induced caspase 3 activity, indicating that the cytotoxic drugs positively modulate the CD95-dependent signalling cascade up-stream of caspase 3 activation.
...
PMID:Chemotherapy primes malignant glioma cells for CD95 ligand-induced apoptosis up-stream of caspase 3 activation. 971 75
Sensitivity of CD95-mediated apoptosis has been reported to vary during cell cycle progression (FEBS Lett. (1997) 412, 91-93). Here, we report that three human
glioma
cell lines with different p53 status (i) undergo growth arrest and synchronous cell cycle re-entry after prolonged serum deprivation, (ii) do not exhibit cell cycle-related changes in CD95 expression at the cell surface, and (iii) do not exhibit cell cycle-related changes in susceptibility to DC95 ligand-induced apoptosis. In contrast, cell cycle-specific activity was demonstrated for various cancer chemotherapy drugs. Further, CD95 expression and susceptibility to
CD95 ligand
-induced apoptosis does not vary during cell cycle progression of Jurkat T cells, HeLa cervical carcinoma and HepG2 hepatocellular carcinoma cells. These results do not support a role for the cell cycle phase as an important predictor of vulnerability to CD95-mediated apoptosis.
...
PMID:CD95-mediated apoptosis: no variation in cellular sensitivity during cell cycle progression. 972 Sep 15
Topotecan is a novel topoisomerase I inhibitor that may have a role in the adjuvant chemotherapy of several solid tumors, including malignant
glioma
. Here, we have characterized the time- and concentration-dependent toxicity of topotecan in four human malignant
glioma
cell lines, LN-18, LN-229, LN-308 and T98G. High micromolar concentrations of topotecan, which are unlikely to be achieved in plasma in human patients in vivo, were cytotoxic within 48 hr, induced DNA fragmentation, did not induce major cell cycle changes, failed to consistently alter BCL-2 or BAX protein levels but inhibited RNA synthesis and induced cleavable DNA/topoisomerase I complex formation. Prolonged exposure for 72 hr to high nanomolar to low micromolar concentrations of topotecan augmented p21 protein levels and induced G2/M arrest but failed to consistently alter BCL-2 and BAX protein levels, did not induce significant DNA/topoisomerase I complex formation and did not inhibit RNA synthesis. Neither short-term nor long-term topotecan toxicity was blocked by ectopic expression of bcl-2 or wild-type p53. Transfer of a mutant p53 gene enhanced topotecan sensitivity in wild-type p53 LN-229 but not mutant p53 LN-18 cells.
CD95 ligand
(
CD95L
)-induced apoptosis was synergistically enhanced by short-term/high concentration but not long-term/low concentration exposure to topotecan, suggesting that topotecan sensitizes human malignant
glioma
cells to
CD95L
-induced apoptosis via inhibition of RNA synthesis. These data suggest that topotecan needs to be administered in high concentrations, such as an intratumoral polymer, to limit
glioma
cell growth in synergy with
CD95L
in vivo.
...
PMID:Potentiation of CD95L-induced apoptosis of human malignant glioma cells by topotecan involves inhibition of RNA synthesis but not changes in CD95 or CD95L protein expression. 973
Dexamethasone (DEX)-mediated inhibition of drug-induced, but not
CD95 ligand
-induced, apoptosis in malignant
glioma
cells correlates with wild-type p53 status. Here, we examined mechanisms underlying DEX-mediated protection from apoptosis. DEX did not induce p53 expression in two p53 wild-type cell lines (U87MG, LN-229) and did not alter drug-induced p53 accumulation. Forced expression of temperature-sensitive p53val135 in mutant conformation failed to prevent accumulation of endogenous wild-type p53 but acted in a transdominant negative manner to inhibit p53-mediated, camptothecin-induced p21WAF1/CIP1 expression. p53val135-transfected cells retained responsiveness to DEX at restrictive temperature, suggesting that p53 activity is not required for cytoprotection. Forced expression of wild-type p53val135 abrogated the protective effect of DEX, suggesting redundant cytoprotective effects of DEX and p53. Indeed, DEX induced moderate accumulation of p21WAF1/CIP1 in U87MG, LN-229 and p53 mutant LN-18 cells, but not in p53 mutant LN-308 or T98G cells. LN-18 is also the p53 mutant cell line with the best cytoprotective response to DEX. p21WAF1/CIP1 accumulation occurred in the absence of changes in p21WAF1/CIP1 mRNA expression. Wild-type p53 was not required for this DEX effect since DEX induced p21WAF1/CIP1 accumulation in p53val135-transfected LN-229 cells, too. DEX failed to induce p21WAF1/CIP1 expression or cytoprotection in untransformed rat astrocytes. The same lack of modulation of p21WAF1/CIP1 expression and drug toxicity was observed in p21(+/+), p21(+/-) and p21(-/-) human colon carcinoma cells. Paradoxically, while only p21(+/+) and p21(+/-) mouse embryonic fibroblasts showed enhance p21WAF1/CIP1 levels after exposure to DEX, only p21(-/-) fibroblasts were protected from drug toxicity by DEX. The present study links DEX-mediated protection from cancer chemotherapy to a p53-independent pathway of regulating p21WAF1/CIP1 expression in
glioma
cells but this effect appears to cell type-specific.
...
PMID:Dexamethasone-mediated protection from drug cytotoxicity: association with p21WAF1/CIP1 protein accumulation? 979 34
Nitric oxide (NO) is thought to play an important role in neurotransmission, inflammation, and regulation of cell death in the mammalian brain. Here, we examined the synthesis and biological effects of NO in human malignant
glioma
cells. Exposure to cytokines such as interferon (IFN)-gamma, tumor necrosis factor (TNF)-alpha or interleukin (IL)-1beta and lipopolysaccharide (LPS) induced NO synthesis in rat C6 and A172 human
glioma
cells, but not in LN-229, T98G or LN-18 human malignant
glioma
cells. Induced release of NO involved enhanced expression of inducible NO synthase (iNOS). Failure to detect NO release in the latter cell lines was not overcome by neutralization of endogenous TGF-beta or by coexposure to cytokines, LPS, and antioxidants. Apoptosis induced by
CD95 ligand
(
CD95L
) did not involve NO formation. Neither NOS inhibitors nor NO donators modulated
CD95L
-induced apoptosis. Dexamethasone (DEX)-mediated protection of
glioma
cells from
CD95L
-induced apoptosis was also independent of DEX effects on NO metabolism. DEX inhibited not only cytokine/LPS-evoked NO release but also attenuated the toxicity of NO in three of five cell lines. Forced expression of temperature-sensitive p53 val135 in C6 cells in either mutant or wild-type conformation inhibited cytokine/LPS-induced NO synthesis. Further, accumulation of p53 in both mutant or wild-type conformation protected
glioma
cells from the toxicity of exogenous NO, consistent with a gain of p53 function associated with p53 accumulation. We conclude that resistance to NO-dependent immune defense mechanisms may contribute to the malignant progression of human cancers with p53 alterations, notably those associated with the accumulation of mutant p53 protein.
...
PMID:Synthesis and biological effects of NO in malignant glioma cells: modulation by cytokines including CD95L and TGF-beta, dexamethasone, and p53 gene transfer. 981 63
AP02 ligand (APO2L) is a
CD95 ligand
(
CD95L
)-related cytokine of the tumor necrosis factor family that interacts with agonistic (DR4, DR5) and antagonistic (DcR1, DcR2) receptors. Cultured malignant
glioma
cells preferentially express agonistic receptors and are susceptible to APO2L-induced apoptosis. Here, we report that 8 of 8 human
glioma
cell lines expressed APO2L mRNA and protein in vitro. Immunohistochemistry using a monoclonal antibody to APO2L revealed that all 23 primary astrocytic brain tumors analyzed, including low-grade astrocytomas and glioblastomas, express APO2L in vivo. With the exception of reactive astrocytes, non-neoplastic glia and neurons in the cerebrum lacked immunoreactivity of APO2L. Thus, in addition to the CD95/
CD95L
system, a second death ligand/death receptor pair may regulate susceptibility to apoptosis in human glial neoplasms.
...
PMID:Human astrocytic brain tumors express AP02L/TRAIL. 993 Aug 88
Susceptibility to CD95 (Fas/APO-1)-mediated apoptosis in human
glioma
cells depends on CD95 expression and unknown factors that regulate signal transduction. Thus, LN-18 cells are highly sensitive to
CD95 ligand
(
CD95L
) whereas LN-229 cells require coexposure to inhibitors of RNA or protein synthesis for induction of apoptosis. Here, we report that caspase 8 and 3 activation, poly(ADP-ribose)polymerase cleavage and apoptosis are inhibited by the lipoxygenase inhibitor, nordihydroguaretic acid (NDGA), or ectopic expression of crm-A or bcl-2.
CD95L
-induced
glioma
cell apoptosis does not involve ceramide generation. Apoptosis induced by exogenous ceramide resembles CD95-mediated apoptosis in that bcl-2 is protective but differs in that NDGA and crm-A have no effect and in that cycloheximide (CHX) inhibits rather than potentiates ceramide-induced cell death. We conclude that caspase 8 and caspase 3 activation, but not ceramide generation, are required for
CD95 ligand
-induced apoptosis of
glioma
cells and that bcl-2, crm-A and NDGA all act upstream of caspases to inhibit apoptosis.
...
PMID:Crm-A, bcl-2 and NDGA inhibit CD95L-induced apoptosis of malignant glioma cells at the level of caspase 8 processing. 1020 95
Betulinic acid (BA), a pentacyclic triterpene, is an experimental cytotoxic agent for malignant melanoma. Here, we show that BA triggers apoptosis in five human
glioma
cell lines. BA-induced apoptosis requires new protein, but not RNA, synthesis, is independent of p53, and results in p21 protein accumulation in the absence of a cell cycle arrest. BA-induced apoptosis involves the activation of caspases that cleave poly(ADP ribose)polymerase. Interactions of death ligand/receptor pairs of the CD95/
CD95 ligand
family do not mediate BA-induced caspase activation. BA enhances the levels of BAX and BCL-2 proteins but does not alter the levels of BCL-xS or BCL-xL. Ectopic expression of BCL-2 prevents BA-induced caspase activation, DNA fragmentation, and cell death. Furthermore, BA induces the formation of reactive oxygen species that are essential for BA-triggered cell death. The generation of reactive oxygen species is blocked by BCL-2 and requires new protein synthesis but is unaffected by caspase inhibitors, suggesting that BA toxicity sequentially involves new protein synthesis, formation of reactive oxygen species, and activation of crm-A-insensitive caspases.
...
PMID:Betulinic acid-induced apoptosis in glioma cells: A sequential requirement for new protein synthesis, formation of reactive oxygen species, and caspase processing. 1033 21
The temperature-sensitive murine p53val135 mutant was introduced into 3 human malignant
glioma
cell lines to examine the effects of the p53 status on BCL-2 family protein expression, CD95 expression, and sensitivity to
CD95 ligand
(
CD95L
)-induced apoptosis. p53val135 behaves as a dominant negative mutant at 38.5 degrees C but assumes p53 wild-type properties. In order to dissect (i) specific effects of wild-type versus mutant p53, and (ii) transdominant-negative versus gain-of-function effects of mutant p53, we included
glioma
cell lines with functional wild-type (LN-229), mutant (LN-18) or deleted (LN-308) p53 genes. Wild-type, but not mutant, p53val135 promoted G2/M arrest and accumulation of BAK protein in all cell lines. The levels of other BCL-2 family members including BAX, BCL-2, BCL-X or MCL-1 were not consistently modulated by mutant or wild-type p53val135. Wild-type, but not mutant, p53val135 enhanced CD95 expression in all cell lines.
CD95L
-evoked caspase 3 activity was unaffected by wild-type p53 in all cell lines. Unexpectedly, mutant p53val135 differentially modulated caspase 3 activity in a gain-of-function fashion in that caspase 3 activity induced by
CD95L
was enhanced in LN-229 and LN-308 cells but reduced in LN-18 cells. Yet, mutant p53val135 enhanced the sensitivity to
CD95L
in LN-18 cells, had no effect in LN-229 cells, and decreased the sensitivity of LN-308 cells. Corresponding to the unaltered
CD95L
-evoked caspase 3 activity, wild-type p53val135 had no major effect on
CD95L
-induced apoptosis, except for a moderate sensitization of LN-229 cells but only when protein synthesis was inhibited. Thus, wild-type p53 induces BAK and CD95 expression in human
glioma
cells without enhancing their susceptibility to CD95-mediated apoptosis, and mutant p53 modulates
CD95L
-evoked apoptotic signalling in a gain-of-function fashion up-stream and down-stream of caspase 3 activation.
...
PMID:p53 enhances BAK and CD95 expression in human malignant glioma cells but does not enhance CD95L-induced apoptosis. 1035 42
Steroids are essential for the control of oedema in human malignant
glioma
patients but may interfere with the efficacy of chemotherapy. Boswellic acids are phytotherapeutic anti-inflammatory agents that may be alternative drugs to corticosteroids in the treatment of cerebral oedema. Here, we report that boswellic acids are cytotoxic to malignant
glioma
cells at low micromolar concentrations. In-situ DNA end labelling and electron microscopy reveal that boswellic acids induce apoptosis. Boswellic acid-induced apoptosis requires protein, but not RNA synthesis, and is neither associated with free radical formation nor blocked by free radical scavengers. The levels of BAX and BCL-2 proteins remain unaltered during boswellic acid-induced apoptosis. p21 expression is induced by boswellic acids via a p53-independent pathway. Ectopic expression of wild-type p53 also induces p21, and facilitates boswellic acid-induced apoptosis. However, targeted disruption of the p21 genes in colon carcinoma cells enhances rather than decreases boswellic acid toxicity. Ectopic expression of neither BCL-2 nor the caspase inhibitor, CRM-A, is protective. In contrast to steroids, subtoxic concentrations of boswellic acids do not interfere with cancer drug toxicity of
glioma
cells in acute cytotoxicity or clonogenic cell death assays. Also, in contrast to steroids, boswellic acids synergize with the cytotoxic cytokine,
CD95 ligand
, in inducing
glioma
cell apoptosis. This effect is probably mediated by inhibition of RNA synthesis and is not associated with changes of CD95 expression at the cell surface. Further studies in laboratory animals and in human patients are required to determine whether boswellic acids may be a useful adjunct to the medical management of human malignant
glioma
.
...
PMID:Boswellic acids and malignant glioma: induction of apoptosis but no modulation of drug sensitivity. 1036 Jun 53
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