Y705 and S727 are required for the mitochondrial import and transcriptional activities of STAT3, and for regulation of stem cell proliferation

The STAT3 transcription factor, acting both in the nucleus and mitochondria, maintains embryonic stem cell pluripotency and promotes their proliferation. In this work, using zebrafish, we determined in vivo that mitochondrial STAT3 regulates mtDNA transcription in embryonic and larval stem cell nich...

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Autores principales: Peron, Margherita, Dinarello, Alberto, Meneghetti, Giacomo, Martorano, Laura, Betto, Riccardo M., Facchinello, Nicola, Tesoriere, Annachiara, Tiso, Natascia, Martello, Graziano, Argenton, Francesco
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Company of Biologists Ltd 2021
Materias:
Stem Cells and Regeneration
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8451946/
https://www.ncbi.nlm.nih.gov/pubmed/34473253
http://dx.doi.org/10.1242/dev.199477
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author Peron, Margherita
Dinarello, Alberto
Meneghetti, Giacomo
Martorano, Laura
Betto, Riccardo M.
Facchinello, Nicola
Tesoriere, Annachiara
Tiso, Natascia
Martello, Graziano
Argenton, Francesco
author_facet Peron, Margherita
Dinarello, Alberto
Meneghetti, Giacomo
Martorano, Laura
Betto, Riccardo M.
Facchinello, Nicola
Tesoriere, Annachiara
Tiso, Natascia
Martello, Graziano
Argenton, Francesco
author_sort Peron, Margherita
collection PubMed
description The STAT3 transcription factor, acting both in the nucleus and mitochondria, maintains embryonic stem cell pluripotency and promotes their proliferation. In this work, using zebrafish, we determined in vivo that mitochondrial STAT3 regulates mtDNA transcription in embryonic and larval stem cell niches and that this activity affects their proliferation rates. As a result, we demonstrated that import of STAT3 inside mitochondria requires Y705 phosphorylation by Jak, whereas its mitochondrial transcriptional activity, as well as its effect on proliferation, depends on the MAPK target S727. These data were confirmed using mouse embryonic stem cells: although the Y705-mutated STAT3 cannot enter mitochondria, the S727 mutation does not affect import into the organelle and is responsible for STAT3-dependent mitochondrial transcription. Surprisingly, STAT3-dependent increase of mitochondrial transcription appears to be independent from STAT3 binding to STAT3-responsive elements. Finally, loss-of-function experiments, with chemical inhibition of the JAK/STAT3 pathway or genetic ablation of stat3 gene, demonstrated that STAT3 is also required for cell proliferation in the intestine of zebrafish.
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spelling pubmed-84519462021-09-28 Y705 and S727 are required for the mitochondrial import and transcriptional activities of STAT3, and for regulation of stem cell proliferation Peron, Margherita Dinarello, Alberto Meneghetti, Giacomo Martorano, Laura Betto, Riccardo M. Facchinello, Nicola Tesoriere, Annachiara Tiso, Natascia Martello, Graziano Argenton, Francesco Development Stem Cells and Regeneration The STAT3 transcription factor, acting both in the nucleus and mitochondria, maintains embryonic stem cell pluripotency and promotes their proliferation. In this work, using zebrafish, we determined in vivo that mitochondrial STAT3 regulates mtDNA transcription in embryonic and larval stem cell niches and that this activity affects their proliferation rates. As a result, we demonstrated that import of STAT3 inside mitochondria requires Y705 phosphorylation by Jak, whereas its mitochondrial transcriptional activity, as well as its effect on proliferation, depends on the MAPK target S727. These data were confirmed using mouse embryonic stem cells: although the Y705-mutated STAT3 cannot enter mitochondria, the S727 mutation does not affect import into the organelle and is responsible for STAT3-dependent mitochondrial transcription. Surprisingly, STAT3-dependent increase of mitochondrial transcription appears to be independent from STAT3 binding to STAT3-responsive elements. Finally, loss-of-function experiments, with chemical inhibition of the JAK/STAT3 pathway or genetic ablation of stat3 gene, demonstrated that STAT3 is also required for cell proliferation in the intestine of zebrafish. The Company of Biologists Ltd 2021-09-06 /pmc/articles/PMC8451946/ /pubmed/34473253 http://dx.doi.org/10.1242/dev.199477 Text en © 2021. Published by The Company of Biologists Ltd https://creativecommons.org/licenses/by/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.
spellingShingle Stem Cells and Regeneration
Peron, Margherita
Dinarello, Alberto
Meneghetti, Giacomo
Martorano, Laura
Betto, Riccardo M.
Facchinello, Nicola
Tesoriere, Annachiara
Tiso, Natascia
Martello, Graziano
Argenton, Francesco
Y705 and S727 are required for the mitochondrial import and transcriptional activities of STAT3, and for regulation of stem cell proliferation
title Y705 and S727 are required for the mitochondrial import and transcriptional activities of STAT3, and for regulation of stem cell proliferation
title_full Y705 and S727 are required for the mitochondrial import and transcriptional activities of STAT3, and for regulation of stem cell proliferation
title_fullStr Y705 and S727 are required for the mitochondrial import and transcriptional activities of STAT3, and for regulation of stem cell proliferation
title_full_unstemmed Y705 and S727 are required for the mitochondrial import and transcriptional activities of STAT3, and for regulation of stem cell proliferation
title_short Y705 and S727 are required for the mitochondrial import and transcriptional activities of STAT3, and for regulation of stem cell proliferation
title_sort y705 and s727 are required for the mitochondrial import and transcriptional activities of stat3, and for regulation of stem cell proliferation
topic Stem Cells and Regeneration
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8451946/
https://www.ncbi.nlm.nih.gov/pubmed/34473253
http://dx.doi.org/10.1242/dev.199477
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