Ceramide-induced formation of ROS and ATP depletion trigger necrosis in lymphoid cells

Joan Villena; Mauricio Henriquez; Vicente Torres; Francisco Moraga; Jessica Díaz-Elizondo; Cristian Arredondo; Mario Chiong; Claudio Olea-Azar; Andres Stutzin; Sergio Lavandero; Andrew F.G. Quest

doi:10.1016/j.freeradbiomed.2007.12.017

Ceramide-induced formation of ROS and ATP depletion trigger necrosis in lymphoid cells

Joan Villena, Mauricio Henriquez, Vicente Torres, Francisco Moraga, Jessica Díaz-Elizondo, Cristian Arredondo, Mario Chiong, Claudio Olea-Azar, Andres Stutzin, Sergio Lavandero, Andrew F.G. Quest

Universidad de Chile

Research output: Contribution to journal › Article › peer-review

53 Citations (Scopus)

Abstract

In lymphocytes, Fas activation leads to both apoptosis and necrosis, whereby the latter form of cell death is linked to delayed production of endogenous ceramide and is mimicked by exogenous administration of long- and short-chain ceramides. Here molecular events associated with noncanonical necrotic cell death downstream of ceramide were investigated in A20 B lymphoma and Jurkat T cells. Cell-permeable, C6-ceramide (C6), but not dihydro-C6-ceramide (DH-C6), induced necrosis in a time- and dose-dependent fashion. Rapid formation of reactive oxygen species (ROS) within 30 min of C6 addition detected by a dihydrorhodamine fluorescence assay, as well as by electron spin resonance, was accompanied by loss of mitochondrial membrane potential. The presence of N-acetylcysteine or ROS scavengers like Tiron, but not Trolox, attenuated ceramide-induced necrosis. Alternatively, adenovirus-mediated expression of catalase in A20 cells also attenuated cell necrosis but not apoptosis. Necrotic cell death observed following C6 exposure was associated with a pronounced decrease in ATP levels and Tiron significantly delayed ATP depletion in both A20 and Jurkat cells. Thus, apoptotic and necrotic death induced by ceramide in lymphocytes occurs via distinct mechanisms. Furthermore, ceramide-induced necrotic cell death is linked here to loss of mitochondrial membrane potential, production of ROS, and intracellular ATP depletion.

Original language	English
Pages (from-to)	1146-1160
Number of pages	15
Journal	Free Radical Biology and Medicine
Volume	44
Issue number	6
DOIs	https://doi.org/10.1016/j.freeradbiomed.2007.12.017
Publication status	Published - Mar 15 2008

Bibliographical note

Funding Information:
The work presented here was supported by Wellcome Trust 064911/Z/01/z and ICGEB CRP/CH102-01(to A.F.G. Quest), FONDAP 15010006 (to A.F.G. Quest, S. Lavandero, and A. Stutzin), CONICYT Post-Doctoral Fellowship 3070045 (to M. Henriquez), and CONICYT Ph.D. Student Fellowships (to V. Torres and F. Moraga). Parts of the results shown here have been presented previously in preliminary form as an abstract/poster (International Symposium on Mechanism of Cell Death: Molecular Insights and Therapeutic Perspectives, Reñaca (Chile, April 2005).

ASJC Scopus Subject Areas

Biochemistry
Physiology (medical)

Access to Document

10.1016/j.freeradbiomed.2007.12.017

Cite this

@article{1fc351402f664c3c957bf2cededa14e6,

title = "Ceramide-induced formation of ROS and ATP depletion trigger necrosis in lymphoid cells",

abstract = "In lymphocytes, Fas activation leads to both apoptosis and necrosis, whereby the latter form of cell death is linked to delayed production of endogenous ceramide and is mimicked by exogenous administration of long- and short-chain ceramides. Here molecular events associated with noncanonical necrotic cell death downstream of ceramide were investigated in A20 B lymphoma and Jurkat T cells. Cell-permeable, C6-ceramide (C6), but not dihydro-C6-ceramide (DH-C6), induced necrosis in a time- and dose-dependent fashion. Rapid formation of reactive oxygen species (ROS) within 30 min of C6 addition detected by a dihydrorhodamine fluorescence assay, as well as by electron spin resonance, was accompanied by loss of mitochondrial membrane potential. The presence of N-acetylcysteine or ROS scavengers like Tiron, but not Trolox, attenuated ceramide-induced necrosis. Alternatively, adenovirus-mediated expression of catalase in A20 cells also attenuated cell necrosis but not apoptosis. Necrotic cell death observed following C6 exposure was associated with a pronounced decrease in ATP levels and Tiron significantly delayed ATP depletion in both A20 and Jurkat cells. Thus, apoptotic and necrotic death induced by ceramide in lymphocytes occurs via distinct mechanisms. Furthermore, ceramide-induced necrotic cell death is linked here to loss of mitochondrial membrane potential, production of ROS, and intracellular ATP depletion.",

author = "Joan Villena and Mauricio Henriquez and Vicente Torres and Francisco Moraga and Jessica D{\'i}az-Elizondo and Cristian Arredondo and Mario Chiong and Claudio Olea-Azar and Andres Stutzin and Sergio Lavandero and Quest, {Andrew F.G.}",

note = "Funding Information: The work presented here was supported by Wellcome Trust 064911/Z/01/z and ICGEB CRP/CH102-01(to A.F.G. Quest), FONDAP 15010006 (to A.F.G. Quest, S. Lavandero, and A. Stutzin), CONICYT Post-Doctoral Fellowship 3070045 (to M. Henriquez), and CONICYT Ph.D. Student Fellowships (to V. Torres and F. Moraga). Parts of the results shown here have been presented previously in preliminary form as an abstract/poster (International Symposium on Mechanism of Cell Death: Molecular Insights and Therapeutic Perspectives, Re{\~n}aca (Chile, April 2005).",

year = "2008",

month = mar,

day = "15",

doi = "10.1016/j.freeradbiomed.2007.12.017",

language = "English",

volume = "44",

pages = "1146--1160",

journal = "Free Radical Biology and Medicine",

issn = "0891-5849",

number = "6",

}

TY - JOUR

T1 - Ceramide-induced formation of ROS and ATP depletion trigger necrosis in lymphoid cells

AU - Villena, Joan

AU - Henriquez, Mauricio

AU - Torres, Vicente

AU - Moraga, Francisco

AU - Díaz-Elizondo, Jessica

AU - Arredondo, Cristian

AU - Chiong, Mario

AU - Olea-Azar, Claudio

AU - Stutzin, Andres

AU - Lavandero, Sergio

AU - Quest, Andrew F.G.

N1 - Funding Information: The work presented here was supported by Wellcome Trust 064911/Z/01/z and ICGEB CRP/CH102-01(to A.F.G. Quest), FONDAP 15010006 (to A.F.G. Quest, S. Lavandero, and A. Stutzin), CONICYT Post-Doctoral Fellowship 3070045 (to M. Henriquez), and CONICYT Ph.D. Student Fellowships (to V. Torres and F. Moraga). Parts of the results shown here have been presented previously in preliminary form as an abstract/poster (International Symposium on Mechanism of Cell Death: Molecular Insights and Therapeutic Perspectives, Reñaca (Chile, April 2005).

PY - 2008/3/15

Y1 - 2008/3/15

N2 - In lymphocytes, Fas activation leads to both apoptosis and necrosis, whereby the latter form of cell death is linked to delayed production of endogenous ceramide and is mimicked by exogenous administration of long- and short-chain ceramides. Here molecular events associated with noncanonical necrotic cell death downstream of ceramide were investigated in A20 B lymphoma and Jurkat T cells. Cell-permeable, C6-ceramide (C6), but not dihydro-C6-ceramide (DH-C6), induced necrosis in a time- and dose-dependent fashion. Rapid formation of reactive oxygen species (ROS) within 30 min of C6 addition detected by a dihydrorhodamine fluorescence assay, as well as by electron spin resonance, was accompanied by loss of mitochondrial membrane potential. The presence of N-acetylcysteine or ROS scavengers like Tiron, but not Trolox, attenuated ceramide-induced necrosis. Alternatively, adenovirus-mediated expression of catalase in A20 cells also attenuated cell necrosis but not apoptosis. Necrotic cell death observed following C6 exposure was associated with a pronounced decrease in ATP levels and Tiron significantly delayed ATP depletion in both A20 and Jurkat cells. Thus, apoptotic and necrotic death induced by ceramide in lymphocytes occurs via distinct mechanisms. Furthermore, ceramide-induced necrotic cell death is linked here to loss of mitochondrial membrane potential, production of ROS, and intracellular ATP depletion.

AB - In lymphocytes, Fas activation leads to both apoptosis and necrosis, whereby the latter form of cell death is linked to delayed production of endogenous ceramide and is mimicked by exogenous administration of long- and short-chain ceramides. Here molecular events associated with noncanonical necrotic cell death downstream of ceramide were investigated in A20 B lymphoma and Jurkat T cells. Cell-permeable, C6-ceramide (C6), but not dihydro-C6-ceramide (DH-C6), induced necrosis in a time- and dose-dependent fashion. Rapid formation of reactive oxygen species (ROS) within 30 min of C6 addition detected by a dihydrorhodamine fluorescence assay, as well as by electron spin resonance, was accompanied by loss of mitochondrial membrane potential. The presence of N-acetylcysteine or ROS scavengers like Tiron, but not Trolox, attenuated ceramide-induced necrosis. Alternatively, adenovirus-mediated expression of catalase in A20 cells also attenuated cell necrosis but not apoptosis. Necrotic cell death observed following C6 exposure was associated with a pronounced decrease in ATP levels and Tiron significantly delayed ATP depletion in both A20 and Jurkat cells. Thus, apoptotic and necrotic death induced by ceramide in lymphocytes occurs via distinct mechanisms. Furthermore, ceramide-induced necrotic cell death is linked here to loss of mitochondrial membrane potential, production of ROS, and intracellular ATP depletion.

UR - http://www.scopus.com/inward/record.url?scp=39949083025&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=39949083025&partnerID=8YFLogxK

U2 - 10.1016/j.freeradbiomed.2007.12.017

DO - 10.1016/j.freeradbiomed.2007.12.017

M3 - Article

C2 - 18191646

AN - SCOPUS:39949083025

SN - 0891-5849

VL - 44

SP - 1146

EP - 1160

JO - Free Radical Biology and Medicine

JF - Free Radical Biology and Medicine

IS - 6

ER -

Ceramide-induced formation of ROS and ATP depletion trigger necrosis in lymphoid cells

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Access to Document

Other files and links

Fingerprint

Cite this