Enoxacin extends lifespan of C. elegans by inhibiting miR-34-5p and promoting mitohormesis

Alterations in microRNA (miRNA) processing have been previously linked to aging. Here we used the small molecule enoxacin to pharmacologically interfere with miRNA biogenesis and study how it affects aging in C. elegans. Enoxacin extended worm lifespan and promoted survival under normal and oxidativ...

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Autores principales: Pinto, Silas, Sato, Vitor N., De-Souza, Evandro A., Ferraz, Rafael C., Camara, Henrique, Pinca, Ana Paula F., Mazzotti, Diego R., Lovci, Michael T., Tonon, Guilherme, Lopes-Ramos, Camila M., Parmigiani, Raphael B., Wurtele, Martin, Massirer, Katlin B., Mori, Marcelo A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2018
Materias:
Short Communication
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6037660/
https://www.ncbi.nlm.nih.gov/pubmed/29986212
http://dx.doi.org/10.1016/j.redox.2018.06.006
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author Pinto, Silas
Sato, Vitor N.
De-Souza, Evandro A.
Ferraz, Rafael C.
Camara, Henrique
Pinca, Ana Paula F.
Mazzotti, Diego R.
Lovci, Michael T.
Tonon, Guilherme
Lopes-Ramos, Camila M.
Parmigiani, Raphael B.
Wurtele, Martin
Massirer, Katlin B.
Mori, Marcelo A.
author_facet Pinto, Silas
Sato, Vitor N.
De-Souza, Evandro A.
Ferraz, Rafael C.
Camara, Henrique
Pinca, Ana Paula F.
Mazzotti, Diego R.
Lovci, Michael T.
Tonon, Guilherme
Lopes-Ramos, Camila M.
Parmigiani, Raphael B.
Wurtele, Martin
Massirer, Katlin B.
Mori, Marcelo A.
author_sort Pinto, Silas
collection PubMed
description Alterations in microRNA (miRNA) processing have been previously linked to aging. Here we used the small molecule enoxacin to pharmacologically interfere with miRNA biogenesis and study how it affects aging in C. elegans. Enoxacin extended worm lifespan and promoted survival under normal and oxidative stress conditions. Enoxacin-induced longevity required the transcription factor SKN-1/Nrf2 and was blunted by the antioxidant N-acetyl-cysteine, suggesting a prooxidant-mediated mitohormetic response. The longevity effects of enoxacin were also dependent on the miRNA pathway, consistent with changes in miRNA expression elicited by the drug. Among these differentially expressed miRNAs, the widely conserved miR-34-5p was found to play an important role in enoxacin-mediated longevity. Enoxacin treatment down-regulated miR-34-5p and did not further extend lifespan of long-lived mir-34 mutants. Moreover, N-acetyl-cysteine abrogated mir-34(gk437)-induced longevity. Evidence also points to double-stranded RNA-specific adenosine deaminases (ADARs) as new targets of enoxacin since ADAR loss-of-function abrogates enoxacin-induced lifespan extension. Thus, enoxacin increases lifespan by reducing miR-34-5p levels, interfering with the redox balance and promoting healthspan.
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spelling pubmed-60376602018-07-11 Enoxacin extends lifespan of C. elegans by inhibiting miR-34-5p and promoting mitohormesis Pinto, Silas Sato, Vitor N. De-Souza, Evandro A. Ferraz, Rafael C. Camara, Henrique Pinca, Ana Paula F. Mazzotti, Diego R. Lovci, Michael T. Tonon, Guilherme Lopes-Ramos, Camila M. Parmigiani, Raphael B. Wurtele, Martin Massirer, Katlin B. Mori, Marcelo A. Redox Biol Short Communication Alterations in microRNA (miRNA) processing have been previously linked to aging. Here we used the small molecule enoxacin to pharmacologically interfere with miRNA biogenesis and study how it affects aging in C. elegans. Enoxacin extended worm lifespan and promoted survival under normal and oxidative stress conditions. Enoxacin-induced longevity required the transcription factor SKN-1/Nrf2 and was blunted by the antioxidant N-acetyl-cysteine, suggesting a prooxidant-mediated mitohormetic response. The longevity effects of enoxacin were also dependent on the miRNA pathway, consistent with changes in miRNA expression elicited by the drug. Among these differentially expressed miRNAs, the widely conserved miR-34-5p was found to play an important role in enoxacin-mediated longevity. Enoxacin treatment down-regulated miR-34-5p and did not further extend lifespan of long-lived mir-34 mutants. Moreover, N-acetyl-cysteine abrogated mir-34(gk437)-induced longevity. Evidence also points to double-stranded RNA-specific adenosine deaminases (ADARs) as new targets of enoxacin since ADAR loss-of-function abrogates enoxacin-induced lifespan extension. Thus, enoxacin increases lifespan by reducing miR-34-5p levels, interfering with the redox balance and promoting healthspan. Elsevier 2018-06-19 /pmc/articles/PMC6037660/ /pubmed/29986212 http://dx.doi.org/10.1016/j.redox.2018.06.006 Text en © 2018 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Short Communication
Pinto, Silas
Sato, Vitor N.
De-Souza, Evandro A.
Ferraz, Rafael C.
Camara, Henrique
Pinca, Ana Paula F.
Mazzotti, Diego R.
Lovci, Michael T.
Tonon, Guilherme
Lopes-Ramos, Camila M.
Parmigiani, Raphael B.
Wurtele, Martin
Massirer, Katlin B.
Mori, Marcelo A.
Enoxacin extends lifespan of C. elegans by inhibiting miR-34-5p and promoting mitohormesis
title Enoxacin extends lifespan of C. elegans by inhibiting miR-34-5p and promoting mitohormesis
title_full Enoxacin extends lifespan of C. elegans by inhibiting miR-34-5p and promoting mitohormesis
title_fullStr Enoxacin extends lifespan of C. elegans by inhibiting miR-34-5p and promoting mitohormesis
title_full_unstemmed Enoxacin extends lifespan of C. elegans by inhibiting miR-34-5p and promoting mitohormesis
title_short Enoxacin extends lifespan of C. elegans by inhibiting miR-34-5p and promoting mitohormesis
title_sort enoxacin extends lifespan of c. elegans by inhibiting mir-34-5p and promoting mitohormesis
topic Short Communication
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6037660/
https://www.ncbi.nlm.nih.gov/pubmed/29986212
http://dx.doi.org/10.1016/j.redox.2018.06.006
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