Chemical blockage of the proteasome inhibitory function of bortezomib: impact on tumor cell death

The proteasome inhibitor bortezomib is emerging as a potent anti-cancer agent. Still, recent clinical trials have revealed a significant secondary toxicity of bortezomib. Consequently, there is much interest in dissecting the mechanism of action of this compound to rationally improve its therapeutic...

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Veröffentlicht in:	The Journal of biological chemistry 2006-01, Vol.281 (2), p.1107
Hauptverfasser:	Fernández, Yolanda, Miller, Thomas P, Denoyelle, Christophe, Esteban, Jose A, Tang, Wen-Hua, Bengston, Audrey L, Soengas, María S
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Schlagworte:	1,2-Dihydroxybenzene-3,5-Disulfonic Acid Disodium Salt - chemistry 1,2-Dihydroxybenzene-3,5-Disulfonic Acid Disodium Salt - pharmacology Antineoplastic Agents - pharmacology Antioxidants - chemistry Binding, Competitive Boronic Acids - pharmacology Bortezomib Breast Neoplasms - metabolism Cell Death - drug effects Cell Line Cell Line, Tumor Cell Survival Drug Antagonism Fibroblasts - metabolism Free Radicals Humans Immunoblotting Kinetics Leupeptins - pharmacology Melanocytes - metabolism Melanoma - drug therapy Membrane Potentials Models, Biological Protease Inhibitors - pharmacology Proteasome Inhibitors Pyrazines - pharmacology Reactive Oxygen Species Skin - pathology Time Factors
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container_title	The Journal of biological chemistry
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creator	Fernández, Yolanda Miller, Thomas P Denoyelle, Christophe Esteban, Jose A Tang, Wen-Hua Bengston, Audrey L Soengas, María S
description	The proteasome inhibitor bortezomib is emerging as a potent anti-cancer agent. Still, recent clinical trials have revealed a significant secondary toxicity of bortezomib. Consequently, there is much interest in dissecting the mechanism of action of this compound to rationally improve its therapeutic index. The cytotoxic effect of bortezomib is frequently characterized by interfering with downstream events derived from the accumulation of proteasomal targets. Here we identify the first chemical agent able to act upstream of the proteasome to prevent cell killing by bortezomib. Specifically, we show that the polyhydroxyl compound Tiron can function as a competitive inhibitor of bortezomib. This effect of Tiron was surprising, since it is a classical radical spin trap and was expected to scavenge reactive oxygen species produced as a consequence of bortezomib action. The inhibitory effect of Tiron against bortezomib was selective, since it was not shared by other antioxidants, such as vitamin E, MnTBAP, L-N-acetyl-cysteine, and FK-506. Comparative analyses with nonboronated proteasome inhibitors (i.e. MG132) revealed a specificity of Tiron for bortezomib. We exploited this novel feature of Tiron to define the "point of no return" of proteasome inhibition in melanoma cells and to block cell death in a three-dimensional model of human skin. Cells from T-cell lymphoma, breast carcinoma, and non-small cell lung cancer were also responsive to Tiron, suggesting a broad impact of this agent as a bortezomib blocker. These results may have important implications for the analysis of bortezomib in vivo and for the design of drug mixtures containing proteasome inhibitors.
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Comparative analyses with nonboronated proteasome inhibitors (i.e. MG132) revealed a specificity of Tiron for bortezomib. We exploited this novel feature of Tiron to define the "point of no return" of proteasome inhibition in melanoma cells and to block cell death in a three-dimensional model of human skin. Cells from T-cell lymphoma, breast carcinoma, and non-small cell lung cancer were also responsive to Tiron, suggesting a broad impact of this agent as a bortezomib blocker. 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Comparative analyses with nonboronated proteasome inhibitors (i.e. MG132) revealed a specificity of Tiron for bortezomib. We exploited this novel feature of Tiron to define the "point of no return" of proteasome inhibition in melanoma cells and to block cell death in a three-dimensional model of human skin. Cells from T-cell lymphoma, breast carcinoma, and non-small cell lung cancer were also responsive to Tiron, suggesting a broad impact of this agent as a bortezomib blocker. 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subjects	1,2-Dihydroxybenzene-3,5-Disulfonic Acid Disodium Salt - chemistry 1,2-Dihydroxybenzene-3,5-Disulfonic Acid Disodium Salt - pharmacology Antineoplastic Agents - pharmacology Antioxidants - chemistry Binding, Competitive Boronic Acids - pharmacology Bortezomib Breast Neoplasms - metabolism Cell Death - drug effects Cell Line Cell Line, Tumor Cell Survival Drug Antagonism Fibroblasts - metabolism Free Radicals Humans Immunoblotting Kinetics Leupeptins - pharmacology Melanocytes - metabolism Melanoma - drug therapy Membrane Potentials Models, Biological Protease Inhibitors - pharmacology Proteasome Inhibitors Pyrazines - pharmacology Reactive Oxygen Species Skin - pathology Time Factors
title	Chemical blockage of the proteasome inhibitory function of bortezomib: impact on tumor cell death
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