Cytotoxic and pro-oxydant effects of very long chain fatty acids on glial cells and their implications for X-ALD and P-NALD diseases
Identifieur interne : 000150 ( Hal/Checkpoint ); précédent : 000149; suivant : 000151Cytotoxic and pro-oxydant effects of very long chain fatty acids on glial cells and their implications for X-ALD and P-NALD diseases
Auteurs : Mauhamad Baarine [France]Source :
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Abstract
X-ALD and P-NALD are two rare, peroxisomal metabolic and neurodegenerative diseases. ABCD1 and ACOX1 are known to be responsible for X-ALD and P-NALD, respectively. The actively demyelinating lesions in CNS, exhibited signs of oxidative stress and cell death. The accumulation of VLCFA in plasma and tissue is the biochemical common hallmark to both diseases. First, we characterized a murine oligodendrocytes cell line 158N to use it as a model. This 158N cell line which has characteristics of mature oligodendrocytes (expression of myelin proteins MOG, MBP, PLP), has also functional peroxisomes with Abcd1 and Acox1 proteins. Then, we studied the cytotoxic and pro-oxidative effects of VLCFA (C24: 0 and C26: 0), and the effects of in vitro silencing of the Abcd1 and Acox1 genes by siRNA on the redox balance and cell death. Effects of VLCFA on the biophysical characteristics of cytoplasmic membrane were also evaluated. Moreover, markers of oxidative stress were researched on plasma of patients with different forms of X-ALD. In vitro, we showed that the accumulation of VLCFA on 158N cells induced overproduction of reactive oxygen and nitrogen species and a disruption of antioxidant defense systems (catalase, SOD, GSH). This was accompanied by lipid peroxidation, protein carbonylation and degradation of DNA. The extinction of Abcd1 and Acox1 by siRNA increased the production of radical species and potentialized the oxidative stress induced by VLCFA. On plasma of patients with different forms X-ALD, compared to healthy subjects, we showed an accumulation of lipid peroxidation products (7-hydroxycholesterol, HODEs). The rate of these two products is correlated with the severity of the disease: CCALD> AMN> Addison> ACALD. The VLCFA also induce cell death on 158N by a non-apoptotic process. This cell death is characterized by: a rapid increased of intracellular Ca2+ level, pH decrease, a loss of mitochondrial transmembrane potential associated with structural changes of mitochondria, a destabilization of lysosomes, and formation of autophagic vacuoles. The VLCFA also disrupt the membrane fluidity. Furthermore, VLCFA do not affect the expression of myelin major proteins PLP and MBP. This work highlighted a direct link between VLCFA accumulation, oxidative stress and induction of cell death involving lysosomes. Abcd1 and Acox1 deficiency promotes oxidative stress. In agreement with results obtained in vitro, the detection of markers of lipid peroxidation in the plasma of X-ALD patients favors the hypothesis of an involvement of oxidative stress in this pathology.
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ABCD1 and ACOX1 are known to be responsible for X-ALD and P-NALD, respectively. The actively demyelinating lesions in CNS, exhibited signs of oxidative stress and cell death. The accumulation of VLCFA in plasma and tissue is the biochemical common hallmark to both diseases. First, we characterized a murine oligodendrocytes cell line 158N to use it as a model. This 158N cell line which has characteristics of mature oligodendrocytes (expression of myelin proteins MOG, MBP, PLP), has also functional peroxisomes with Abcd1 and Acox1 proteins. Then, we studied the cytotoxic and pro-oxidative effects of VLCFA (C24: 0 and C26: 0), and the effects of in vitro silencing of the Abcd1 and Acox1 genes by siRNA on the redox balance and cell death. Effects of VLCFA on the biophysical characteristics of cytoplasmic membrane were also evaluated. Moreover, markers of oxidative stress were researched on plasma of patients with different forms of X-ALD. In vitro, we showed that the accumulation of VLCFA on 158N cells induced overproduction of reactive oxygen and nitrogen species and a disruption of antioxidant defense systems (catalase, SOD, GSH). This was accompanied by lipid peroxidation, protein carbonylation and degradation of DNA. The extinction of Abcd1 and Acox1 by siRNA increased the production of radical species and potentialized the oxidative stress induced by VLCFA. On plasma of patients with different forms X-ALD, compared to healthy subjects, we showed an accumulation of lipid peroxidation products (7-hydroxycholesterol, HODEs). The rate of these two products is correlated with the severity of the disease: CCALD> AMN> Addison> ACALD. The VLCFA also induce cell death on 158N by a non-apoptotic process. This cell death is characterized by: a rapid increased of intracellular Ca2+ level, pH decrease, a loss of mitochondrial transmembrane potential associated with structural changes of mitochondria, a destabilization of lysosomes, and formation of autophagic vacuoles. The VLCFA also disrupt the membrane fluidity. Furthermore, VLCFA do not affect the expression of myelin major proteins PLP and MBP. This work highlighted a direct link between VLCFA accumulation, oxidative stress and induction of cell death involving lysosomes. Abcd1 and Acox1 deficiency promotes oxidative stress. In agreement with results obtained in vitro, the detection of markers of lipid peroxidation in the plasma of X-ALD patients favors the hypothesis of an involvement of oxidative stress in this pathology.</div></front></TEI><hal api="V3"> <titleStmt> <title xml:lang="en">Cytotoxic and pro-oxydant effects of very long chain fatty acids on glial cells and their implications for X-ALD and P-NALD diseases</title> <title xml:lang="fr">Activités cytotoxiques et pro-oxydantes d'acides gras à très longue chaîne sur des oligodendrocytes murins sauvages et déficients en Abcd1 et Acox1 : application à la physiopathologie de l'X-ALD et de la P-NALD</title> <author role="aut"> <persName> <forename type="first">Mauhamad</forename> <surname>Baarine</surname> </persName> <idno type="halauthorid">523579</idno> <affiliation ref="#struct-27738"></affiliation> </author> <editor role="depositor"> <persName> <forename>ABES</forename> <surname>STAR</surname> </persName> <email type="md5">f5aa7f563b02bb6adbba7496989af39a</email> <email type="domain">abes.fr</email> </editor> </titleStmt> <editionStmt> <edition n="v1" type="current"> <date type="whenSubmitted">2011-05-31 16:58:19</date> <date type="whenModified">2018-02-11 01:14:22</date> <date type="whenReleased">2011-06-01 09:39:26</date> <date type="whenProduced">2010-12-15</date> <date type="whenEndEmbargoed">2011-05-31</date> <ref type="file" target="https://tel.archives-ouvertes.fr/tel-00597383/document"> <date notBefore="2011-05-31"></date> </ref> <ref type="file" subtype="author" n="1" target="https://tel.archives-ouvertes.fr/tel-00597383/file/these_A_BAARINE_Mauhamad_2010.pdf"> <date notBefore="2011-05-31"></date> </ref> </edition> <respStmt> <resp>contributor</resp> <name key="131274"> <persName> <forename>ABES</forename> <surname>STAR</surname> </persName> <email type="md5">f5aa7f563b02bb6adbba7496989af39a</email> <email type="domain">abes.fr</email> </name> </respStmt> </editionStmt> <publicationStmt> <distributor>CCSD</distributor> <idno type="halId">tel-00597383</idno> <idno type="halUri">https://tel.archives-ouvertes.fr/tel-00597383</idno> <idno type="halBibtex">baarine:tel-00597383</idno> <idno type="halRefHtml">Sciences agricoles. Université de Bourgogne, 2010. Français. 〈NNT : 2010DIJOS047〉</idno> <idno type="halRef">Sciences agricoles. Université de Bourgogne, 2010. Français. 〈NNT : 2010DIJOS047〉</idno> </publicationStmt> <seriesStmt> <idno type="stamp" n="INSERM">INSERM - Institut national de la santé et de la recherche médicale</idno> <idno type="stamp" n="STAR">STAR - Dépôt national des thèses électroniques</idno> <idno type="stamp" n="UNIV-BOURGOGNE">Université de Bourgogne</idno> <idno type="stamp" n="LNC-UMR866" p="UNIV-BOURGOGNE">Lipides Nutrition Cancer - UMR866</idno> <idno type="stamp" n="AGREENIUM">Archive ouverte en agrobiosciences</idno> <idno type="stamp" n="ENSBANA" p="AGROSUP-DIJON">École Nationale Supérieure de Biologie Appliquée à la Nutrition et à l'Alimentation ENSBANA</idno> <idno type="stamp" n="AGROSUP-DIJON">AGROSUP-DIJON</idno> </seriesStmt> <notesStmt></notesStmt> <sourceDesc> <biblStruct> <analytic> <title xml:lang="en">Cytotoxic and pro-oxydant effects of very long chain fatty acids on glial cells and their implications for X-ALD and P-NALD diseases</title> <title xml:lang="fr">Activités cytotoxiques et pro-oxydantes d'acides gras à très longue chaîne sur des oligodendrocytes murins sauvages et déficients en Abcd1 et Acox1 : application à la physiopathologie de l'X-ALD et de la P-NALD</title> <author role="aut"> <persName> <forename type="first">Mauhamad</forename> <surname>Baarine</surname> </persName> <idno type="halauthorid">523579</idno> <affiliation ref="#struct-27738"></affiliation> </author> </analytic> <monogr> <idno type="nnt">2010DIJOS047</idno> <imprint> <date type="dateDefended">2010-12-15</date> </imprint> <authority type="institution">Université de Bourgogne</authority> <authority type="school">École doctorale E2S Environnements, Santé, STIC (Dijon ; ....-2012)</authority> <authority type="supervisor">Gérard Lizard</authority> <authority type="jury">Mustapha Cherkaoui-Malki [Président]</authority> <authority type="jury">Saïd Ghandour [Rapporteur]</authority> <authority type="jury">Nathalie Cartier [Rapporteur]</authority> <authority type="jury">Charbel Massaad</authority> </monogr> </biblStruct> </sourceDesc> <profileDesc> <langUsage> <language ident="fr">French</language> </langUsage> <textClass> <keywords scheme="author"> <term xml:lang="en">No english keywords</term> <term xml:lang="fr">Lysosome</term> <term xml:lang="fr">Protéines de myéline</term> <term xml:lang="fr">Stress oxydant</term> <term xml:lang="fr">Mort cellulaire</term> <term xml:lang="fr">Oligodendrocytes</term> <term xml:lang="fr">P-NALD</term> <term xml:lang="fr">X-ALD</term> <term xml:lang="fr">Peroxysome</term> </keywords> <classCode scheme="halDomain" n="sdv.sa">Life Sciences [q-bio]/Agricultural sciences</classCode> <classCode scheme="halDomain" n="sdv.mhep">Life Sciences [q-bio]/Human health and pathology</classCode> <classCode scheme="halTypology" n="THESE">Theses</classCode> </textClass> <abstract xml:lang="en">X-ALD and P-NALD are two rare, peroxisomal metabolic and neurodegenerative diseases. ABCD1 and ACOX1 are known to be responsible for X-ALD and P-NALD, respectively. The actively demyelinating lesions in CNS, exhibited signs of oxidative stress and cell death. The accumulation of VLCFA in plasma and tissue is the biochemical common hallmark to both diseases. First, we characterized a murine oligodendrocytes cell line 158N to use it as a model. This 158N cell line which has characteristics of mature oligodendrocytes (expression of myelin proteins MOG, MBP, PLP), has also functional peroxisomes with Abcd1 and Acox1 proteins. Then, we studied the cytotoxic and pro-oxidative effects of VLCFA (C24: 0 and C26: 0), and the effects of in vitro silencing of the Abcd1 and Acox1 genes by siRNA on the redox balance and cell death. Effects of VLCFA on the biophysical characteristics of cytoplasmic membrane were also evaluated. Moreover, markers of oxidative stress were researched on plasma of patients with different forms of X-ALD. In vitro, we showed that the accumulation of VLCFA on 158N cells induced overproduction of reactive oxygen and nitrogen species and a disruption of antioxidant defense systems (catalase, SOD, GSH). This was accompanied by lipid peroxidation, protein carbonylation and degradation of DNA. The extinction of Abcd1 and Acox1 by siRNA increased the production of radical species and potentialized the oxidative stress induced by VLCFA. On plasma of patients with different forms X-ALD, compared to healthy subjects, we showed an accumulation of lipid peroxidation products (7-hydroxycholesterol, HODEs). The rate of these two products is correlated with the severity of the disease: CCALD> AMN> Addison> ACALD. The VLCFA also induce cell death on 158N by a non-apoptotic process. This cell death is characterized by: a rapid increased of intracellular Ca2+ level, pH decrease, a loss of mitochondrial transmembrane potential associated with structural changes of mitochondria, a destabilization of lysosomes, and formation of autophagic vacuoles. The VLCFA also disrupt the membrane fluidity. Furthermore, VLCFA do not affect the expression of myelin major proteins PLP and MBP. This work highlighted a direct link between VLCFA accumulation, oxidative stress and induction of cell death involving lysosomes. Abcd1 and Acox1 deficiency promotes oxidative stress. In agreement with results obtained in vitro, the detection of markers of lipid peroxidation in the plasma of X-ALD patients favors the hypothesis of an involvement of oxidative stress in this pathology.</abstract> <abstract xml:lang="fr">L’X-ALD et la P-NALD sont deux maladies peroxysomales, métaboliques et neurodégénératives rares. L'X-ALD et la P-NALD résultent de déficiences respectives en ABCD1 et ACOX1. Ces deux maladies dans leurs formes sévères sont associées à des phénomènes de démyélinisation inflammatoire du SNC. Au niveau des lésions, des signes d'oxydation et une mort cellulaire sont observés. L’accumulation des AGTLC plasmatiques et tissulaires est le critère biochimique commun à ces deux maladies. Dans un premier temps, nous avons caractérisé une lignée d'oligodendrocytes murins 158N afin de l'utiliser comme modèle. Cette lignée qui présente des caractéristiques d'oligodendrocytes matures (expression des protéines de myéline MOG, MBP, PLP) possède aussi des peroxysomes fonctionnels possédant les protéines Abcd1 et Acox1. Ensuite, nous avons étudié les effets cytotoxiques et pro-oxydants des AGTLC (C24:0 et C26:0), ainsi que l’incidence de l’extinction d’Abcd1 et d’Acox1 par siRNA sur l'équilibre RedOx et la mort cellulaire. Les effets des AGTLC sur les caractéristiques biophysiques de la membrane cytoplasmique ont aussi été abordés. Par ailleurs, des marqueurs du stress oxydant ont été recherchés sur des plasmas des patients atteints de différentes formes d’X-ALD. In vitro, nous avons montré que l’accumulation d'AGTLC dans les cellules 158N induit une surproduction d'espèces radicalaires de l'oxygène et de l'azote et une perturbation des défenses anti-oxydantes (catalase, SOD, GSH). Ceci s'accompagne d'une peroxydation lipidique, d'une carbonylation des protéines et d'une dégradation de l'ADN. L'extinction d'Abcd1 et d'Acox1 par des siRNA augmente la production d'espèces radicalaires et potentialise le stress oxydant induit par les AGTLC. Sur les plasmas de patients atteints de différentes formes d’X-ALD, comparativement à des sujets sains, nous avons montré l’accumulation des produits de peroxydation lipidiques (7-hydroxycholestérols, HODEs). Le taux de ces deux produits est corrélé avec la sévérité de la maladie: CCALD>AMN>Addison>ACALD. Les AGTLC induisent aussi la mort des cellules 158N par un processus non apoptotique. Cette mort cellulaire est caractérisée par: une perturbation rapide du calcium intracellulaire, une diminution du pH, une chute du potentiel transmembranaire mitochondrial associée à des modifications structurales des mitochondries, une déstabilisation des lysosomes et une formation de figures d'autophagie. Les AGTLC perturbent aussi la fluidité membranaire. Par ailleurs, les AGTLC n'affectent pas l'expression des protéines majeures de la myéline PLP et MBP. Ces travaux ont mis en évidence un lien direct entre l'accumulation des AGTLC, le stress oxydant et l'induction de mort cellulaire faisant intervenir les lysosomes. La déficience en Abcd1 et Acox1 favorise le stress oxydant. En accord avec les résultats obtenus in vitro, la mise en évidence de marqueurs de peroxydation lipidiques dans le plasma de malades atteints d'X-ALD conforte l'hypothèse d'une intervention du stress oxydant dans cette pathologie.</abstract> </profileDesc> </hal></record>Pour manipuler ce document sous Unix (Dilib)
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