Esther P. Jane scite author profile

Mitogen-activated protein kinase (MAPK) and protein kinase C (PKC) are activated in the majority of gliomas and contribute to tumor cell growth and survival. Sorafenib (Bay43-9006; Nexavar) is a dual-action Raf and vascular endothelial growth factor receptor inhibitor that blocks receptor phosphorylation and MAPK-mediated signaling and inhibits growth in a number of tumor types. Because our initial studies of this agent in a series of glioma cell lines showed only partial growth inhibition at clinically achievable concentrations, we questioned whether inhibition of PKC signaling using the PKC-␦ inhibitor rottlerin might potentiate therapeutic efficacy. Proliferation assays, apoptosis induction studies, and Western immunoblot analysis were conducted in cells treated with sorafenib and rottlerin as single agents or in combination. Sorafenib and rottlerin reduced proliferation in all cell lines when used as single agents, and the combination produced marked potentiation of growth inhibition. Flow-cytometric measurements of cells stained with Annexin V-propidium iodide and immunocytochemical assessment of cytochrome c and apoptosis-inducing factor release demonstrated that addition of rottlerin resulted in significantly higher levels of apoptosis than sorafenib alone. In addition, the combination of sorafenib and rottlerin reduced or completely inhibited the phosphorylation of extracellular signal-regulated kinase and Akt and down-regulated cell cycle regulatory proteins such as cyclin-D1, cyclin-D3, cyclin-dependent kinase (cdk)4, and cdk6 in a dose-and time-dependent manner. Our results clearly indicate that inhibition of PKC-␦ signaling enhances the antiproliferative effect of sorafenib in malignant human glioma cell lines and support the examination of combinations of signaling inhibitors in these tumors.

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The Drosophila trithorax protein binds to specific chromosomal sites and is co-localized with Polycomb at many sites.

Chinwalla

1995

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trithorax is required to stably maintain homeotic gene expression patterns established during embryogenesis by the action of the transiently expressed products of the segmentation genes. The large trithorax proteins contain a number of highly conserved novel motifs, some of which have been hypothesized to interact directly with specific DNA sequences in their target genes. Using antibodies directed against trithorax proteins, we show that they are bound to 63 specific sites on the polytene chromosomes of the larval salivary gland. trithorax binding is detected at the sites of its known targets, the Bithorax and Antennapedia complexes, despite the transcriptionally repressed state of these loci in the salivary gland. A temperature‐sensitive trithorax mutation greatly reduces the number of binding sites. Simultaneous localization of trithorax and Polycomb indicates that many of their chromosomal binding sites coincide. We localized one trithorax binding site within a portion of the large 5′ regulatory region of the Ubx gene, to an interval which also contains binding sites for Polycomb group proteins. These results suggest that trithorax exerts its effects by binding directly or indirectly to specific DNA sequences in its target genes. Co‐localization with Polycomb also suggests that interactions between these activators and repressors of the homeotic genes may be a significant feature of their mode of action.

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Bortezomib‐induced sensitization of malignant human glioma cells to vorinostat‐induced apoptosis depends on reactive oxygen species production, mitochondrial dysfunction, Noxa upregulation, Mcl‐1 cleavage, and DNA damage

Premkumar

Jane

Agostino

et al. 2011

Molecular Carcinogenesis

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Glioblastomas are invasive tumors with poor prognosis despite current therapies. Histone deacetylase inhibitors (HDACIs) represent a class of agents that can modulate gene expression to reduce tumor growth, and we and others have noted some antiglioma activity from HDACIs, such as vorinostat, although insufficient to warrant use as mono-therapy. We have recently demonstrated that proteasome inhibitors, such as bortezomib, dramatically sensitized highly resistant glioma cells to apoptosis induction, suggesting that proteasomal inhibition may be a promising combination strategy for glioma therapeutics. In this study, we examined whether bortezomib could enhance response to HDAC inhibition in glioma cells. Although primary cells from glioblastoma multiforme (GBM) patients and established glioma cell lines did not show significant induction of apoptosis with vorinostat treatment alone, the combination of vorino-stat plus bortezomib significantly enhanced apoptosis. The enhanced efficacy was due to proapoptotic mitochondrial injury and increased generation of reactive oxygen species. Our results also revealed that combination of bortezomib with vorinostat enhanced apoptosis by increasing Mcl-1 cleavage, Noxa upregulation, Bak and Bax activation, and cytochrome c release. Further downregulation of Mcl-1 using shRNA enhanced cell killing by the bortezomib/vorinostat combination. Vorinostat induced a rapid and sustained phosphorylation of histone H2AX in primary GBM and T98G cells, and this effect was significantly enhanced by co-administration of bortezomib. Vorinostat/bortezomib combination also induced Rad51 downregulation, which plays an important role in the synergistic enhancement of DNA damage and apoptosis. The significantly enhanced antitumor activity that results from the combination of bortezomib and HDACIs offers promise as a novel treatment for glioma patients.

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Bortezomib Sensitizes Malignant Human Glioma Cells to TRAIL, Mediated by Inhibition of the NF-κB Signaling Pathway

Jane

Premkumar

Pollack

2011

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Previous studies have shown that the tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) has significant apoptosis-inducing activity in some glioma cell lines, although many lines are either moderately or completely resistant, which has limited the therapeutic applicability of this agent. Because our recent studies showed that inhibition of proteasomal function may be independently active as an apoptosis-inducing stimulus in these tumors, we investigated the sensitivity of a panel of glioma cell lines (U87, T98G, U373, A172, LN18, LN229, LNZ308, and LNZ428) to TRAIL alone and in combination with the proteasome inhibitor bortezomib. Analysis of these cell lines revealed marked differences in their sensitivity to these treatments, with two (LNZ308 and U373) of the eight cell lines revealing no significant induction of cell death in response to TRAIL alone. No correlation was found between sensitivity of cells to TRAIL and expression of TRAIL receptors DR4, DR5, and decoy receptor DcR1, caspase 8, apoptosis inhibitory proteins XIAP, survivin, Mcl-1, Bcl-2, Bcl-Xl, and cFLIP. However, TRAIL-resistant cell lines exhibited a high level of basal NF-kB activity. Bortezomib was capable of potentiating TRAIL-induced apoptosis in TRAIL-resistant cells in a caspasedependent fashion. Bortezomib abolished p65/NF-kB DNA-binding activity, supporting the hypothesis that inhibition of the NF-kB pathway is critical for the enhancement of TRAIL sensitization in glioma cells. Moreover, knockdown of p65/NF-kB by shRNA also enhanced TRAIL-induced apoptosis, indicating that p65/NF-kB may be important in mediating TRAIL sensitivity and the effect of bortezomib in promoting TRAIL sensitization and apoptosis induction.

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Esther P. Jane

Coadministration of Sorafenib with Rottlerin Potently Inhibits Cell Proliferation and Migration in Human Malignant Glioma Cells

The Drosophila trithorax protein binds to specific chromosomal sites and is co-localized with Polycomb at many sites.

Bortezomib‐induced sensitization of malignant human glioma cells to vorinostat‐induced apoptosis depends on reactive oxygen species production, mitochondrial dysfunction, Noxa upregulation, Mcl‐1 cleavage, and DNA damage

Bortezomib Sensitizes Malignant Human Glioma Cells to TRAIL, Mediated by Inhibition of the NF-κB Signaling Pathway

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