Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes

Hansen, Fernanda; Galland, Fabiana Andrea Barrera; Pedroso, Franciane Lirio; Souza, Daniela Fraga de; Ré, Carollina Fraga Da; Pacheco, Rafaela Ferreira; Vizuete, Adriana Fernanda Kuckartz; Quincozes-Santos, André; Leite, Marina Concli; Goncalves, Carlos Alberto Saraiva

Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes

Detalhes bibliográficos
Autor(a) principal:	Hansen, Fernanda
Data de Publicação:	2017
Outros Autores:	Galland, Fabiana Andrea Barrera, Pedroso, Franciane Lirio, Souza, Daniela Fraga de, Ré, Carollina Fraga Da, Pacheco, Rafaela Ferreira, Vizuete, Adriana Fernanda Kuckartz, Quincozes-Santos, André, Leite, Marina Concli, Goncalves, Carlos Alberto Saraiva
Tipo de documento:	Artigo
Idioma:	eng
Título da fonte:	Repositório Institucional da UFRGS
Texto Completo:	http://hdl.handle.net/10183/172816
Resumo:	The impairment of astrocyte functions is associated with diabetes mellitus and other neurodegenerative diseases. Astrocytes have been proposed to be essential cells for neuroprotection against elevated levels of methylglyoxal (MG), a highly reactive aldehyde derived from the glycolytic pathway. MG exposure impairs primary astrocyte viability, as evaluated by different assays, and these cells respond to MG elevation by increasing glyoxalase 1 activity and glutathione levels, which improve cell viability and survival. However, C6 glioma cells have shown strong signs of resistance against MG, without significant changes in the glyoxalase system. Results for aminoguanidine coincubation support the idea that MG toxicity is mediated by glycation. We found a significant decrease in glutamate uptake by astrocytes, without changes in the expression of the major transporters. Carbenoxolone, a nonspecific inhibitor of gap junctions, prevented the cytotoxicity induced by MG in astrocyte cultures. Thus, our data reinforce the idea that astrocyte viability depends on gap junctions and that the impairment induced by MG involves glutamate excitotoxicity. The astrocyte susceptibility to MG emphasizes the importance of this compound in neurodegenerative diseases, where the neuronal damage induced by MG may be aggravated by the commitment of the cells charged with MG clearance.

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spelling	Hansen, FernandaGalland, Fabiana Andrea BarreraPedroso, Franciane LirioSouza, Daniela Fraga deRé, Carollina Fraga DaPacheco, Rafaela FerreiraVizuete, Adriana Fernanda KuckartzQuincozes-Santos, AndréLeite, Marina ConcliGoncalves, Carlos Alberto Saraiva2018-02-23T02:24:55Z20171942-0994http://hdl.handle.net/10183/172816001058786The impairment of astrocyte functions is associated with diabetes mellitus and other neurodegenerative diseases. Astrocytes have been proposed to be essential cells for neuroprotection against elevated levels of methylglyoxal (MG), a highly reactive aldehyde derived from the glycolytic pathway. MG exposure impairs primary astrocyte viability, as evaluated by different assays, and these cells respond to MG elevation by increasing glyoxalase 1 activity and glutathione levels, which improve cell viability and survival. However, C6 glioma cells have shown strong signs of resistance against MG, without significant changes in the glyoxalase system. Results for aminoguanidine coincubation support the idea that MG toxicity is mediated by glycation. We found a significant decrease in glutamate uptake by astrocytes, without changes in the expression of the major transporters. Carbenoxolone, a nonspecific inhibitor of gap junctions, prevented the cytotoxicity induced by MG in astrocyte cultures. Thus, our data reinforce the idea that astrocyte viability depends on gap junctions and that the impairment induced by MG involves glutamate excitotoxicity. The astrocyte susceptibility to MG emphasizes the importance of this compound in neurodegenerative diseases, where the neuronal damage induced by MG may be aggravated by the commitment of the cells charged with MG clearance.application/pdfengOxidative medicine and cellular longevity. New York. Vol. 2017 (2017), ID 9574201, 11 p.AstrócitosAldeído pirúvicoÁcido glutâmicoMethylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytesEstrangeiroinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFRGSinstname:Universidade Federal do Rio Grande do Sul (UFRGS)instacron:UFRGSORIGINAL001058786.pdf001058786.pdfTexto completo (inglês)application/pdf2847050http://www.lume.ufrgs.br/bitstream/10183/172816/1/001058786.pdfb3dc7cfb829428d1b2adfc271414cc32MD51TEXT001058786.pdf.txt001058786.pdf.txtExtracted Texttext/plain50536http://www.lume.ufrgs.br/bitstream/10183/172816/2/001058786.pdf.txt7bac533c93527c62fe0ef0d2837b5bb4MD52THUMBNAIL001058786.pdf.jpg001058786.pdf.jpgGenerated Thumbnailimage/jpeg1823http://www.lume.ufrgs.br/bitstream/10183/172816/3/001058786.pdf.jpg27c0f47b6df52683869b1005a8d08b64MD5310183/1728162023-08-16 03:33:12.897165oai:www.lume.ufrgs.br:10183/172816Repositório InstitucionalPUBhttps://lume.ufrgs.br/oai/requestlume@ufrgs.bropendoar:2023-08-16T06:33:12Repositório Institucional da UFRGS - Universidade Federal do Rio Grande do Sul (UFRGS)false
dc.title.pt_BR.fl_str_mv	Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes
title	Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes
spellingShingle	Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes Hansen, Fernanda Astrócitos Aldeído pirúvico Ácido glutâmico
title_short	Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes
title_full	Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes
title_fullStr	Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes
title_full_unstemmed	Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes
title_sort	Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes
author	Hansen, Fernanda
author_facet	Hansen, Fernanda Galland, Fabiana Andrea Barrera Pedroso, Franciane Lirio Souza, Daniela Fraga de Ré, Carollina Fraga Da Pacheco, Rafaela Ferreira Vizuete, Adriana Fernanda Kuckartz Quincozes-Santos, André Leite, Marina Concli Goncalves, Carlos Alberto Saraiva
author_role	author
author2	Galland, Fabiana Andrea Barrera Pedroso, Franciane Lirio Souza, Daniela Fraga de Ré, Carollina Fraga Da Pacheco, Rafaela Ferreira Vizuete, Adriana Fernanda Kuckartz Quincozes-Santos, André Leite, Marina Concli Goncalves, Carlos Alberto Saraiva
author2_role	author author author author author author author author author
dc.contributor.author.fl_str_mv	Hansen, Fernanda Galland, Fabiana Andrea Barrera Pedroso, Franciane Lirio Souza, Daniela Fraga de Ré, Carollina Fraga Da Pacheco, Rafaela Ferreira Vizuete, Adriana Fernanda Kuckartz Quincozes-Santos, André Leite, Marina Concli Goncalves, Carlos Alberto Saraiva
dc.subject.por.fl_str_mv	Astrócitos Aldeído pirúvico Ácido glutâmico
topic	Astrócitos Aldeído pirúvico Ácido glutâmico
description	The impairment of astrocyte functions is associated with diabetes mellitus and other neurodegenerative diseases. Astrocytes have been proposed to be essential cells for neuroprotection against elevated levels of methylglyoxal (MG), a highly reactive aldehyde derived from the glycolytic pathway. MG exposure impairs primary astrocyte viability, as evaluated by different assays, and these cells respond to MG elevation by increasing glyoxalase 1 activity and glutathione levels, which improve cell viability and survival. However, C6 glioma cells have shown strong signs of resistance against MG, without significant changes in the glyoxalase system. Results for aminoguanidine coincubation support the idea that MG toxicity is mediated by glycation. We found a significant decrease in glutamate uptake by astrocytes, without changes in the expression of the major transporters. Carbenoxolone, a nonspecific inhibitor of gap junctions, prevented the cytotoxicity induced by MG in astrocyte cultures. Thus, our data reinforce the idea that astrocyte viability depends on gap junctions and that the impairment induced by MG involves glutamate excitotoxicity. The astrocyte susceptibility to MG emphasizes the importance of this compound in neurodegenerative diseases, where the neuronal damage induced by MG may be aggravated by the commitment of the cells charged with MG clearance.
publishDate	2017
dc.date.issued.fl_str_mv	2017
dc.date.accessioned.fl_str_mv	2018-02-23T02:24:55Z
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dc.identifier.issn.pt_BR.fl_str_mv	1942-0994
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url	http://hdl.handle.net/10183/172816
dc.language.iso.fl_str_mv	eng
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dc.relation.ispartof.pt_BR.fl_str_mv	Oxidative medicine and cellular longevity. New York. Vol. 2017 (2017), ID 9574201, 11 p.
dc.rights.driver.fl_str_mv	info:eu-repo/semantics/openAccess
eu_rights_str_mv	openAccess
dc.format.none.fl_str_mv	application/pdf
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Methylglyoxal induces changes in the glyoxalase system and impairs glutamate uptake activity in primary astrocytes

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