Parthenolide induces caspase-independent and AIF-mediated cell death in human osteosarcoma and melanoma cells

Parthenolide induces caspase-independent and AIF-mediated cell death in human osteosarcoma and melanoma cells

The mechanism of the cytotoxic effect exerted by parthenolide on tumor cells is not clearly defined today. This article shows that parthenolide stimulates in human osteosarcoma MG63 and melanoma SK‐MEL‐28 cells a mechanism of cell death, which is not prevented by z‐VAD‐fmk and other caspase inhibito...

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Veröffentlicht in:Journal of cellular physiology 2013-05, Vol.228 (5), p.952-967
Hauptverfasser: D'Anneo, Antonella, Carlisi, Daniela, Lauricella, Marianna, Emanuele, Sonia, Di Fiore, Riccardo, Vento, Renza, Tesoriere, Giovanni
Format: Artikel
Sprache:eng
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Amino Acid Chloromethyl Ketones - pharmacology
Apoptosis
Apoptosis Inducing Factor - genetics
Apoptosis Inducing Factor - metabolism
Bone cancer
Caspase Inhibitors - pharmacology
Caspases - metabolism
Cell Death - drug effects
Cell Line, Tumor
Cellular biology
Gene Expression Regulation, Neoplastic
Humans
Iodides
MAP Kinase Signaling System - drug effects
Melanoma
Melanoma - genetics
Melanoma - metabolism
Mortality
NADPH Oxidases - metabolism
NF-kappa B - antagonists & inhibitors
Osteosarcoma - genetics
Osteosarcoma - metabolism
Proteins
Reactive Oxygen Species - metabolism
Sesquiterpenes - pharmacology
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container_end_page 967
container_issue 5
container_start_page 952
container_title Journal of cellular physiology
container_volume 228
creator D'Anneo, Antonella
Carlisi, Daniela
Lauricella, Marianna
Emanuele, Sonia
Di Fiore, Riccardo
Vento, Renza
Tesoriere, Giovanni
description The mechanism of the cytotoxic effect exerted by parthenolide on tumor cells is not clearly defined today. This article shows that parthenolide stimulates in human osteosarcoma MG63 and melanoma SK‐MEL‐28 cells a mechanism of cell death, which is not prevented by z‐VAD‐fmk and other caspase inhibitors. In particular treatment with parthenolide rapidly stimulated (1–2 h) reactive oxygen species (ROS) generation by inducing activation of extracellular signal‐regulated kinase 1/2 (ERK 1/2) and NADPH oxidase. This event caused depletion of thiol groups and glutathione, NF‐κB inhibition, c‐Jun N‐terminal kinase (JNK) activation, cell detachment from the matrix, and cellular shrinkage. The increase of ROS generation together with the mitochondrial accumulation of Ca2+ also favored dissipation of Δψm, which seemed primarily determined by permeability transition pore opening, since Δψm loss was partially prevented by the inhibitor cyclosporin A. Staining with Hoechst 33342 revealed in most cells, at 3–5 h of treatment, chromatin condensation, and fragmentation, while only few cells were propidium iodide (PI)‐positive. In addition, at this stage apoptosis inducing factor (AIF) translocated to the nucleus and co‐localized with areas of condensed chromatin. Prolonging the treatment (5–15 h) ATP content declined while PI‐positive cells strongly augmented, denouncing the increase of necrotic effects. All these effects were prevented by N‐acetylcysteine, while caspase inhibitors were ineffective. We suggest that AIF exerts a crucial role in parthenolide action. In accordance, down‐regulation of AIF markedly inhibited parthenolide effect on the production of cells with apoptotic or necrotic signs. Taken together our results demonstrate that parthenolide causes in the two cell lines a caspase‐independent cell death, which is mediated by AIF. J. Cell. Physiol. © 2012 Wiley Periodicals, Inc.
doi_str_mv 10.1002/jcp.24131
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This article shows that parthenolide stimulates in human osteosarcoma MG63 and melanoma SK‐MEL‐28 cells a mechanism of cell death, which is not prevented by z‐VAD‐fmk and other caspase inhibitors. In particular treatment with parthenolide rapidly stimulated (1–2 h) reactive oxygen species (ROS) generation by inducing activation of extracellular signal‐regulated kinase 1/2 (ERK 1/2) and NADPH oxidase. This event caused depletion of thiol groups and glutathione, NF‐κB inhibition, c‐Jun N‐terminal kinase (JNK) activation, cell detachment from the matrix, and cellular shrinkage. The increase of ROS generation together with the mitochondrial accumulation of Ca2+ also favored dissipation of Δψm, which seemed primarily determined by permeability transition pore opening, since Δψm loss was partially prevented by the inhibitor cyclosporin A. Staining with Hoechst 33342 revealed in most cells, at 3–5 h of treatment, chromatin condensation, and fragmentation, while only few cells were propidium iodide (PI)‐positive. In addition, at this stage apoptosis inducing factor (AIF) translocated to the nucleus and co‐localized with areas of condensed chromatin. Prolonging the treatment (5–15 h) ATP content declined while PI‐positive cells strongly augmented, denouncing the increase of necrotic effects. All these effects were prevented by N‐acetylcysteine, while caspase inhibitors were ineffective. We suggest that AIF exerts a crucial role in parthenolide action. In accordance, down‐regulation of AIF markedly inhibited parthenolide effect on the production of cells with apoptotic or necrotic signs. Taken together our results demonstrate that parthenolide causes in the two cell lines a caspase‐independent cell death, which is mediated by AIF. J. Cell. 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Cell. Physiol</addtitle><description>The mechanism of the cytotoxic effect exerted by parthenolide on tumor cells is not clearly defined today. This article shows that parthenolide stimulates in human osteosarcoma MG63 and melanoma SK‐MEL‐28 cells a mechanism of cell death, which is not prevented by z‐VAD‐fmk and other caspase inhibitors. In particular treatment with parthenolide rapidly stimulated (1–2 h) reactive oxygen species (ROS) generation by inducing activation of extracellular signal‐regulated kinase 1/2 (ERK 1/2) and NADPH oxidase. This event caused depletion of thiol groups and glutathione, NF‐κB inhibition, c‐Jun N‐terminal kinase (JNK) activation, cell detachment from the matrix, and cellular shrinkage. The increase of ROS generation together with the mitochondrial accumulation of Ca2+ also favored dissipation of Δψm, which seemed primarily determined by permeability transition pore opening, since Δψm loss was partially prevented by the inhibitor cyclosporin A. Staining with Hoechst 33342 revealed in most cells, at 3–5 h of treatment, chromatin condensation, and fragmentation, while only few cells were propidium iodide (PI)‐positive. In addition, at this stage apoptosis inducing factor (AIF) translocated to the nucleus and co‐localized with areas of condensed chromatin. Prolonging the treatment (5–15 h) ATP content declined while PI‐positive cells strongly augmented, denouncing the increase of necrotic effects. All these effects were prevented by N‐acetylcysteine, while caspase inhibitors were ineffective. We suggest that AIF exerts a crucial role in parthenolide action. In accordance, down‐regulation of AIF markedly inhibited parthenolide effect on the production of cells with apoptotic or necrotic signs. Taken together our results demonstrate that parthenolide causes in the two cell lines a caspase‐independent cell death, which is mediated by AIF. J. Cell. 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Cell. Physiol</addtitle><date>2013-05</date><risdate>2013</risdate><volume>228</volume><issue>5</issue><spage>952</spage><epage>967</epage><pages>952-967</pages><issn>0021-9541</issn><eissn>1097-4652</eissn><abstract>The mechanism of the cytotoxic effect exerted by parthenolide on tumor cells is not clearly defined today. This article shows that parthenolide stimulates in human osteosarcoma MG63 and melanoma SK‐MEL‐28 cells a mechanism of cell death, which is not prevented by z‐VAD‐fmk and other caspase inhibitors. In particular treatment with parthenolide rapidly stimulated (1–2 h) reactive oxygen species (ROS) generation by inducing activation of extracellular signal‐regulated kinase 1/2 (ERK 1/2) and NADPH oxidase. This event caused depletion of thiol groups and glutathione, NF‐κB inhibition, c‐Jun N‐terminal kinase (JNK) activation, cell detachment from the matrix, and cellular shrinkage. The increase of ROS generation together with the mitochondrial accumulation of Ca2+ also favored dissipation of Δψm, which seemed primarily determined by permeability transition pore opening, since Δψm loss was partially prevented by the inhibitor cyclosporin A. Staining with Hoechst 33342 revealed in most cells, at 3–5 h of treatment, chromatin condensation, and fragmentation, while only few cells were propidium iodide (PI)‐positive. In addition, at this stage apoptosis inducing factor (AIF) translocated to the nucleus and co‐localized with areas of condensed chromatin. Prolonging the treatment (5–15 h) ATP content declined while PI‐positive cells strongly augmented, denouncing the increase of necrotic effects. All these effects were prevented by N‐acetylcysteine, while caspase inhibitors were ineffective. We suggest that AIF exerts a crucial role in parthenolide action. In accordance, down‐regulation of AIF markedly inhibited parthenolide effect on the production of cells with apoptotic or necrotic signs. Taken together our results demonstrate that parthenolide causes in the two cell lines a caspase‐independent cell death, which is mediated by AIF. J. Cell. Physiol. © 2012 Wiley Periodicals, Inc.</abstract><cop>Hoboken</cop><pub>Wiley Subscription Services, Inc., A Wiley Company</pub><pmid>22688575</pmid><doi>10.1002/jcp.24131</doi><tpages>16</tpages><oa>free_for_read</oa></addata></record>
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subjects Amino Acid Chloromethyl Ketones - pharmacology
Apoptosis
Apoptosis Inducing Factor - genetics
Apoptosis Inducing Factor - metabolism
Bone cancer
Caspase Inhibitors - pharmacology
Caspases - metabolism
Cell Death - drug effects
Cell Line, Tumor
Cellular biology
Gene Expression Regulation, Neoplastic
Humans
Iodides
MAP Kinase Signaling System - drug effects
Melanoma
Melanoma - genetics
Melanoma - metabolism
Mortality
NADPH Oxidases - metabolism
NF-kappa B - antagonists & inhibitors
Osteosarcoma - genetics
Osteosarcoma - metabolism
Proteins
Reactive Oxygen Species - metabolism
Sesquiterpenes - pharmacology
title Parthenolide induces caspase-independent and AIF-mediated cell death in human osteosarcoma and melanoma cells
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