The role of CSA and CSB protein in the oxidative stress response

•CS proteins participate to oxidatively generated DNA damage repair.•CS proteins play a role in the control of the cellular redox balance.•CS proteins are involved in mitochondria stability.•The role of CS proteins in the response to oxidative stress might account for neurodegeneration. Cockayne syn...

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Veröffentlicht in:	Mechanisms of ageing and development 2013-05, Vol.134 (5-6), p.261-269
Hauptverfasser:	D’Errico, Mariarosaria, Pascucci, Barbara, Iorio, Egidio, Van Houten, Bennett, Dogliotti, Eugenia
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Cellular redox balance Cockayne syndrome Cockayne Syndrome - genetics Cockayne Syndrome - metabolism Cockayne Syndrome - pathology DNA Helicases - genetics DNA Helicases - metabolism DNA Repair DNA Repair Enzymes - genetics DNA Repair Enzymes - metabolism Humans Mitochondria - genetics Mitochondria - metabolism Mitochondrial dysfunction Oxidative metabolism Oxidative Stress Poly-ADP-Ribose Binding Proteins Radiation, Ionizing RNA Polymerase II - genetics RNA Polymerase II - metabolism Transcription Factors - genetics Transcription Factors - metabolism Ultraviolet Rays - adverse effects
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container_title	Mechanisms of ageing and development
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creator	D’Errico, Mariarosaria Pascucci, Barbara Iorio, Egidio Van Houten, Bennett Dogliotti, Eugenia
description	•CS proteins participate to oxidatively generated DNA damage repair.•CS proteins play a role in the control of the cellular redox balance.•CS proteins are involved in mitochondria stability.•The role of CS proteins in the response to oxidative stress might account for neurodegeneration. Cockayne syndrome (CS) is a rare hereditary disorder in which infants suffer severe developmental and neurological alterations and early death. Two genes encoding RNA polymerase II cofactors, CSA and CSB, are mutated in this syndrome. CSA and CSB proteins are known to be involved in the transcription-coupled DNA repair pathway but the sensitivity of mutant cells to a number of physical/chemical agents besides UV radiation, such as ionizing radiation, hydrogen peroxide and bioenergetic inhibitors indicate that these proteins play a pivotal role in additional pathways. In this review we will discuss the evidence that implicate CS proteins in the control of oxidative stress response with special emphasis on recent findings that show an altered redox balance and dysfunctional mitochondria in cells derived from patients. Working models of how these new functions might be key to developmental and neurological disease in CS will be discussed.
doi_str_mv	10.1016/j.mad.2013.03.006
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Cockayne syndrome (CS) is a rare hereditary disorder in which infants suffer severe developmental and neurological alterations and early death. Two genes encoding RNA polymerase II cofactors, CSA and CSB, are mutated in this syndrome. CSA and CSB proteins are known to be involved in the transcription-coupled DNA repair pathway but the sensitivity of mutant cells to a number of physical/chemical agents besides UV radiation, such as ionizing radiation, hydrogen peroxide and bioenergetic inhibitors indicate that these proteins play a pivotal role in additional pathways. In this review we will discuss the evidence that implicate CS proteins in the control of oxidative stress response with special emphasis on recent findings that show an altered redox balance and dysfunctional mitochondria in cells derived from patients. 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Cockayne syndrome (CS) is a rare hereditary disorder in which infants suffer severe developmental and neurological alterations and early death. Two genes encoding RNA polymerase II cofactors, CSA and CSB, are mutated in this syndrome. CSA and CSB proteins are known to be involved in the transcription-coupled DNA repair pathway but the sensitivity of mutant cells to a number of physical/chemical agents besides UV radiation, such as ionizing radiation, hydrogen peroxide and bioenergetic inhibitors indicate that these proteins play a pivotal role in additional pathways. In this review we will discuss the evidence that implicate CS proteins in the control of oxidative stress response with special emphasis on recent findings that show an altered redox balance and dysfunctional mitochondria in cells derived from patients. Working models of how these new functions might be key to developmental and neurological disease in CS will be discussed.</description><subject>Animals</subject><subject>Cellular redox balance</subject><subject>Cockayne syndrome</subject><subject>Cockayne Syndrome - genetics</subject><subject>Cockayne Syndrome - metabolism</subject><subject>Cockayne Syndrome - pathology</subject><subject>DNA Helicases - genetics</subject><subject>DNA Helicases - metabolism</subject><subject>DNA Repair</subject><subject>DNA Repair Enzymes - genetics</subject><subject>DNA Repair Enzymes - metabolism</subject><subject>Humans</subject><subject>Mitochondria - genetics</subject><subject>Mitochondria - metabolism</subject><subject>Mitochondrial dysfunction</subject><subject>Oxidative metabolism</subject><subject>Oxidative Stress</subject><subject>Poly-ADP-Ribose Binding Proteins</subject><subject>Radiation, Ionizing</subject><subject>RNA Polymerase II - genetics</subject><subject>RNA Polymerase II - metabolism</subject><subject>Transcription Factors - genetics</subject><subject>Transcription Factors - metabolism</subject><subject>Ultraviolet Rays - adverse effects</subject><issn>0047-6374</issn><issn>1872-6216</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kM1OwzAQhC0EoqXwAFxQjlwS1o7jpOJCqfiTKnGgnK3EXgtXSVzstIK3x1ULR6TR7uXb0c4Qckkho0DFzSrrap0xoHkGUSCOyJhWJUsFo-KYjAF4mYq85CNyFsIKAChn4pSMWF4Ixhkfk7vlBybetZg4k8zfZknd67jvk7V3A9o-iRoi4r6srge7xSQMHkNI4li7PuA5OTF1G_DisCfk_fFhOX9OF69PL_PZIlWcToc0F2hqUzRaUFbxBgxVnBfAGg2a19ooLhrGSl5BDJCbadHwkqPWvCojhSqfkOu9b3zsc4NhkJ0NCtu27tFtgqR5wcspo7SKKN2jyrsQPBq59rar_bekIHfFyZWMxcldcRKiQMSbq4P9pulQ_138NhWB2z2AMeTWopdBWewVautRDVI7-4_9D2Rbe_U</recordid><startdate>201305</startdate><enddate>201305</enddate><creator>D’Errico, Mariarosaria</creator><creator>Pascucci, Barbara</creator><creator>Iorio, Egidio</creator><creator>Van Houten, Bennett</creator><creator>Dogliotti, Eugenia</creator><general>Elsevier Ireland Ltd</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>201305</creationdate><title>The role of CSA and CSB protein in the oxidative stress response</title><author>D’Errico, Mariarosaria ; 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subjects	Animals Cellular redox balance Cockayne syndrome Cockayne Syndrome - genetics Cockayne Syndrome - metabolism Cockayne Syndrome - pathology DNA Helicases - genetics DNA Helicases - metabolism DNA Repair DNA Repair Enzymes - genetics DNA Repair Enzymes - metabolism Humans Mitochondria - genetics Mitochondria - metabolism Mitochondrial dysfunction Oxidative metabolism Oxidative Stress Poly-ADP-Ribose Binding Proteins Radiation, Ionizing RNA Polymerase II - genetics RNA Polymerase II - metabolism Transcription Factors - genetics Transcription Factors - metabolism Ultraviolet Rays - adverse effects
title	The role of CSA and CSB protein in the oxidative stress response
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