Spermidine and resveratrol induce autophagy by distinct pathways converging on the acetylproteome

Eugenia Morselli; Guillermo Mariño; Martin V. Bennetzen; Tobias Eisenberg; Evgenia Megalou; Sabrina Schroeder; Sandra Cabrera; Paule Bénit; Pierre Rustin; Alfredo Criollo; Oliver Kepp; Lorenzo Galluzzi; Shensi Shen; Shoaib Ahmad Malik; Maria Chiara Maiuri; Yoshiyuki Horio; Carlos López-Otín; Jens S. Andersen; Nektarios Tavernarakis; Frank Madeo; Guido Kroemer

doi:10.1083/jcb.201008167

Spermidine and resveratrol induce autophagy by distinct pathways converging on the acetylproteome

Eugenia Morselli, Guillermo Mariño, Martin V. Bennetzen, Tobias Eisenberg, Evgenia Megalou, Sabrina Schroeder, Sandra Cabrera, Paule Bénit, Pierre Rustin, Alfredo Criollo, Oliver Kepp, Lorenzo Galluzzi, Shensi Shen, Shoaib Ahmad Malik, Maria Chiara Maiuri, Yoshiyuki Horio, Carlos López-Otín, Jens S. Andersen, Nektarios Tavernarakis, Frank Madeo^*Guido Kroemer

^*Autor correspondiente de este trabajo

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

433 Citas (Scopus)

Resumen

Autophagy protects organelles, cells, and organisms against several stress conditions. Induction of autophagy by resveratrol requires the nicotinamide adenine dinucleotide-dependent deacetylase sirtuin 1 (SIRT1). In this paper, we show that the acetylase inhibitor spermidine stimulates autophagy independent of SIRT1 in human and yeast cells as well as in nematodes. Although resveratrol and spermidine ignite autophagy through distinct mechanisms, these compounds stimulate convergent pathways that culminate in concordant modifications of the acetylproteome. Both agents favor convergent deacetylation and acetylation reactions in the cytosol and in the nucleus, respectively. Both resveratrol and spermidine were able to induce autophagy in cytoplasts (enucleated cells). Moreover, a cytoplasm-restricted mutant of SIRT1 could stimulate autophagy, suggesting that cytoplasmic deacetylation reactions dictate the autophagic cascade. At doses at which neither resveratrol nor spermidine stimulated autophagy alone, these agents synergistically induced autophagy. Altogether, these data underscore the importance of an autophagy regulatory network of antagonistic deacetylases and acetylases that can be pharmacologically manipulated.

Idioma original	Inglés
Páginas (desde-hasta)	615-629
Número de páginas	15
Publicación	Journal of Cell Biology
Volumen	192
N.º	4
DOI	https://doi.org/10.1083/jcb.201008167
Estado	Publicada - 2011
Publicado de forma externa	Sí

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Biología celular

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Morselli, E., Mariño, G., Bennetzen, M. V., Eisenberg, T., Megalou, E., Schroeder, S., Cabrera, S., Bénit, P., Rustin, P., Criollo, A., Kepp, O., Galluzzi, L., Shen, S., Malik, S. A., Maiuri, M. C., Horio, Y., López-Otín, C., Andersen, J. S., Tavernarakis, N., ... Kroemer, G. (2011). Spermidine and resveratrol induce autophagy by distinct pathways converging on the acetylproteome. Journal of Cell Biology, 192(4), 615-629. https://doi.org/10.1083/jcb.201008167

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title = "Spermidine and resveratrol induce autophagy by distinct pathways converging on the acetylproteome",

abstract = "Autophagy protects organelles, cells, and organisms against several stress conditions. Induction of autophagy by resveratrol requires the nicotinamide adenine dinucleotide-dependent deacetylase sirtuin 1 (SIRT1). In this paper, we show that the acetylase inhibitor spermidine stimulates autophagy independent of SIRT1 in human and yeast cells as well as in nematodes. Although resveratrol and spermidine ignite autophagy through distinct mechanisms, these compounds stimulate convergent pathways that culminate in concordant modifications of the acetylproteome. Both agents favor convergent deacetylation and acetylation reactions in the cytosol and in the nucleus, respectively. Both resveratrol and spermidine were able to induce autophagy in cytoplasts (enucleated cells). Moreover, a cytoplasm-restricted mutant of SIRT1 could stimulate autophagy, suggesting that cytoplasmic deacetylation reactions dictate the autophagic cascade. At doses at which neither resveratrol nor spermidine stimulated autophagy alone, these agents synergistically induced autophagy. Altogether, these data underscore the importance of an autophagy regulatory network of antagonistic deacetylases and acetylases that can be pharmacologically manipulated.",

author = "Eugenia Morselli and Guillermo Mari{\~n}o and Bennetzen, {Martin V.} and Tobias Eisenberg and Evgenia Megalou and Sabrina Schroeder and Sandra Cabrera and Paule B{\'e}nit and Pierre Rustin and Alfredo Criollo and Oliver Kepp and Lorenzo Galluzzi and Shensi Shen and Malik, {Shoaib Ahmad} and Maiuri, {Maria Chiara} and Yoshiyuki Horio and Carlos L{\'o}pez-Ot{\'i}n and Andersen, {Jens S.} and Nektarios Tavernarakis and Frank Madeo and Guido Kroemer",

year = "2011",

month = feb,

day = "21",

doi = "10.1083/jcb.201008167",

language = "English",

volume = "192",

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journal = "Journal of Cell Biology",

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Morselli, E, Mariño, G, Bennetzen, MV, Eisenberg, T, Megalou, E, Schroeder, S, Cabrera, S, Bénit, P, Rustin, P, Criollo, A, Kepp, O, Galluzzi, L, Shen, S, Malik, SA, Maiuri, MC, Horio, Y, López-Otín, C, Andersen, JS, Tavernarakis, N, Madeo, F & Kroemer, G 2011, 'Spermidine and resveratrol induce autophagy by distinct pathways converging on the acetylproteome', Journal of Cell Biology, vol. 192, n.º 4, pp. 615-629. https://doi.org/10.1083/jcb.201008167

TY - JOUR

T1 - Spermidine and resveratrol induce autophagy by distinct pathways converging on the acetylproteome

AU - Morselli, Eugenia

AU - Mariño, Guillermo

AU - Bennetzen, Martin V.

AU - Eisenberg, Tobias

AU - Megalou, Evgenia

AU - Schroeder, Sabrina

AU - Cabrera, Sandra

AU - Bénit, Paule

AU - Rustin, Pierre

AU - Criollo, Alfredo

AU - Kepp, Oliver

AU - Galluzzi, Lorenzo

AU - Shen, Shensi

AU - Malik, Shoaib Ahmad

AU - Maiuri, Maria Chiara

AU - Horio, Yoshiyuki

AU - López-Otín, Carlos

AU - Andersen, Jens S.

AU - Tavernarakis, Nektarios

AU - Madeo, Frank

AU - Kroemer, Guido

PY - 2011/2/21

Y1 - 2011/2/21

N2 - Autophagy protects organelles, cells, and organisms against several stress conditions. Induction of autophagy by resveratrol requires the nicotinamide adenine dinucleotide-dependent deacetylase sirtuin 1 (SIRT1). In this paper, we show that the acetylase inhibitor spermidine stimulates autophagy independent of SIRT1 in human and yeast cells as well as in nematodes. Although resveratrol and spermidine ignite autophagy through distinct mechanisms, these compounds stimulate convergent pathways that culminate in concordant modifications of the acetylproteome. Both agents favor convergent deacetylation and acetylation reactions in the cytosol and in the nucleus, respectively. Both resveratrol and spermidine were able to induce autophagy in cytoplasts (enucleated cells). Moreover, a cytoplasm-restricted mutant of SIRT1 could stimulate autophagy, suggesting that cytoplasmic deacetylation reactions dictate the autophagic cascade. At doses at which neither resveratrol nor spermidine stimulated autophagy alone, these agents synergistically induced autophagy. Altogether, these data underscore the importance of an autophagy regulatory network of antagonistic deacetylases and acetylases that can be pharmacologically manipulated.

AB - Autophagy protects organelles, cells, and organisms against several stress conditions. Induction of autophagy by resveratrol requires the nicotinamide adenine dinucleotide-dependent deacetylase sirtuin 1 (SIRT1). In this paper, we show that the acetylase inhibitor spermidine stimulates autophagy independent of SIRT1 in human and yeast cells as well as in nematodes. Although resveratrol and spermidine ignite autophagy through distinct mechanisms, these compounds stimulate convergent pathways that culminate in concordant modifications of the acetylproteome. Both agents favor convergent deacetylation and acetylation reactions in the cytosol and in the nucleus, respectively. Both resveratrol and spermidine were able to induce autophagy in cytoplasts (enucleated cells). Moreover, a cytoplasm-restricted mutant of SIRT1 could stimulate autophagy, suggesting that cytoplasmic deacetylation reactions dictate the autophagic cascade. At doses at which neither resveratrol nor spermidine stimulated autophagy alone, these agents synergistically induced autophagy. Altogether, these data underscore the importance of an autophagy regulatory network of antagonistic deacetylases and acetylases that can be pharmacologically manipulated.

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U2 - 10.1083/jcb.201008167

DO - 10.1083/jcb.201008167

M3 - Article

C2 - 21339330

AN - SCOPUS:79951889242

SN - 0021-9525

VL - 192

SP - 615

EP - 629

JO - Journal of Cell Biology

JF - Journal of Cell Biology

IS - 4

ER -

Spermidine and resveratrol induce autophagy by distinct pathways converging on the acetylproteome

Resumen

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