Bettina Wagenknecht scite author profile

TGF-β is a putative mediator of immunosuppression associated with malignant glioma and other types of cancer. Subtilisin-like proprotein convertases such as furin are thought to mediate TGF-β processing. Here we report that human malignant glioma cell lines express furin mRNA and protein, exhibit furin-like protease (FLP) activity, and release active furin into the cell culture supernatant. FLP activity is not modulated by exogenous TGF-β or neutralizing TGF-β Abs. Exposure of LN-18 and T98G glioma cell lines to the furin inhibitor, decanoyl-Arg-Val-Lys-Arg-chloromethylketone, inhibits processing of the TGF-β1 and TGF-β2 precursor molecules and, consequently, the release of mature bioactive TGF-β molecules. Ectopic expression of PDX, a synthetic antitrypsin analog with antifurin activity, in the glioma cells inhibits FLP activity, TGF-β processing, and TGF-β release. Thus, subtilisin-like proprotein convertases may represent a novel target for the immunotherapy of malignant glioma and other cancers or pathological conditions characterized by enhanced TGF-β bioactivity.

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Expression and biological activity of X-linked inhibitor of apoptosis (XIAP) in human malignant glioma

Wagenknecht¹,

Glaser²,

Naumann³

et al. 1999

Cell Death Differ

114

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The inhibitor-of-apoptosis (IAP) proteins are a novel family of antiapoptotic proteins that are thought to inhibit cell death via direct inhibition of caspases. Here, we report that human malignant glioma cell lines express XIAP, HIAP-1 and HIAP-2 mRNA and proteins. NAIP was not expressed. IAP proteins were not cleaved during CD95 ligand (CD95L)-induced apoptosis, and loss of IAP protein expression was not responsible for the potentiation of CD95L-induced apoptosis when protein synthesis was inhibited. LN-18 cells are highly sensitive to CD95-mediated apoptosis, whereas LN-229 cells require co-exposure to CD95L and a protein synthesis inhibitor, CHX, to acquire sensitivity to apoptosis. Adenoviral XIAP gene transfer blocked caspase 8 and 3 processing in both cell lines in the absence of CHX. Apoptosis was blocked in the absence and in the presence of CHX. However, XIAP failed to block caspase 8 processing in LN-229 cells in the presence of CHX. There was considerable overlap of the effects of XIAP on caspase processing with those of BCL-2 and the viral caspase inhibitor crm-A. These data define complex regulatory mechanisms for CD95-mediated apoptosis in glioma cells and indicate that there may be a distinct pathway of death receptor-mediated apoptosis that is readily activated when protein synthesis is inhibited. The constitutive expression of natural caspase inhibitors may play a role in the resistance of these cells to apoptotic stimuli that directly target caspases, including radiochemotherapy and immunemediated tumor cell lysis.

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APRIL, a new member of the tumor necrosis factor family, modulates death ligand-induced apoptosis

et al. 2001

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CCNU-dependent potentiation of TRAIL/Apo2L-induced apoptosis in human glioma cells is p53-independent but may involve enhanced cytochrome c release

et al. 2001

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Death ligands such as CD95 ligand (CD95L) or tumor necrosis factor-related apoptosis-inducing ligand/Apo2 ligand (TRAIL/Apo2L) induce apoptosis in radiochemotherapy-resistant human malignant glioma cell lines. The death-signaling TRAIL receptors 2 (TRAIL-R2/death receptor (DR) 5) and TRAIL-R1/ DR4 were expressed more abundantly than the nondeath-inducing (decoy) receptors TRAIL-R3/DcR1 and TRAIL-R4/DcR2 in 12 human glioma cell lines. Four of the 12 cell lines were TRAIL/Apo2L-sensitive in the absence of a protein synthesis inhibitor, cycloheximide (CHX). Three of the 12 cell lines were still TRAIL/ Apo2L-resistant in the presence of CHX. TRAIL-R2 expression predicted sensitivity to apoptosis. Coexposure to TRAIL/Apo2L and cytotoxic drugs such as topotecan, lomustine (1-(2-chloroethyl)-3-cyclohexyl-1-nitrosourea, CCNU) or temozolomide resulted in synergistic killing. Synergistic killing was more often observed in cell lines retaining wild-type p53 activity (U87MG, LN-229) than in p53 mutant cell lines (LN-18, T98G, U373MG). Drug exposure resulted in enhanced TRAIL-R2 expression, but decreased TRAIL-R4 expression in U87MG cells. Ectopic expression of dominant-negative p53 V135A abrogated the druginduced changes in TRAIL-R2 and TRAIL-R4 expression, but had no eect on synergy. Thus, neither wildtype p53 function nor changes in TRAIL receptor expression were required for synergy. In contrast, synergy resulted possibly from drug-induced cytochrome c release from mitochondria, serving as an ampli®er of the TRAIL/Apo2L-mediated cascade of caspase activation. These data provide novel insights into the role of the TRAIL/Apo2L system in malignant gliomas and illustrate that TRAIL/Apo2L-based immunochemotherapy may be an eective therapeutic strategy for these lethal neoplasms. Oncogene (2001) 20, 4128 ± 4137.

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Crm-A, bcl-2 and NDGA inhibit CD95L-induced apoptosis of malignant glioma cells at the level of caspase 8 processing

et al. 1998

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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.

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