A pH-driven transition of the cytoplasm from a fluid- to a solid-like state promotes entry into dormancy

Cells can enter into a dormant state when faced with unfavorable conditions. However, how cells enter into and recover from this state is still poorly understood. Here, we study dormancy in different eukaryotic organisms and find it to be associated with a significant decrease in the mobility of org...

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Autores principales: Munder, Matthias Christoph, Midtvedt, Daniel, Franzmann, Titus, Nüske, Elisabeth, Otto, Oliver, Herbig, Maik, Ulbricht, Elke, Müller, Paul, Taubenberger, Anna, Maharana, Shovamayee, Malinovska, Liliana, Richter, Doris, Guck, Jochen, Zaburdaev, Vasily, Alberti, Simon
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2016
Materias:
Biophysics and Structural Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4850707/
https://www.ncbi.nlm.nih.gov/pubmed/27003292
http://dx.doi.org/10.7554/eLife.09347
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author Munder, Matthias Christoph
Midtvedt, Daniel
Franzmann, Titus
Nüske, Elisabeth
Otto, Oliver
Herbig, Maik
Ulbricht, Elke
Müller, Paul
Taubenberger, Anna
Maharana, Shovamayee
Malinovska, Liliana
Richter, Doris
Guck, Jochen
Zaburdaev, Vasily
Alberti, Simon
author_facet Munder, Matthias Christoph
Midtvedt, Daniel
Franzmann, Titus
Nüske, Elisabeth
Otto, Oliver
Herbig, Maik
Ulbricht, Elke
Müller, Paul
Taubenberger, Anna
Maharana, Shovamayee
Malinovska, Liliana
Richter, Doris
Guck, Jochen
Zaburdaev, Vasily
Alberti, Simon
author_sort Munder, Matthias Christoph
collection PubMed
description Cells can enter into a dormant state when faced with unfavorable conditions. However, how cells enter into and recover from this state is still poorly understood. Here, we study dormancy in different eukaryotic organisms and find it to be associated with a significant decrease in the mobility of organelles and foreign tracer particles. We show that this reduced mobility is caused by an influx of protons and a marked acidification of the cytoplasm, which leads to widespread macromolecular assembly of proteins and triggers a transition of the cytoplasm to a solid-like state with increased mechanical stability. We further demonstrate that this transition is required for cellular survival under conditions of starvation. Our findings have broad implications for understanding alternative physiological states, such as quiescence and dormancy, and create a new view of the cytoplasm as an adaptable fluid that can reversibly transition into a protective solid-like state. DOI: http://dx.doi.org/10.7554/eLife.09347.001
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spelling pubmed-48507072016-05-02 A pH-driven transition of the cytoplasm from a fluid- to a solid-like state promotes entry into dormancy Munder, Matthias Christoph Midtvedt, Daniel Franzmann, Titus Nüske, Elisabeth Otto, Oliver Herbig, Maik Ulbricht, Elke Müller, Paul Taubenberger, Anna Maharana, Shovamayee Malinovska, Liliana Richter, Doris Guck, Jochen Zaburdaev, Vasily Alberti, Simon eLife Biophysics and Structural Biology Cells can enter into a dormant state when faced with unfavorable conditions. However, how cells enter into and recover from this state is still poorly understood. Here, we study dormancy in different eukaryotic organisms and find it to be associated with a significant decrease in the mobility of organelles and foreign tracer particles. We show that this reduced mobility is caused by an influx of protons and a marked acidification of the cytoplasm, which leads to widespread macromolecular assembly of proteins and triggers a transition of the cytoplasm to a solid-like state with increased mechanical stability. We further demonstrate that this transition is required for cellular survival under conditions of starvation. Our findings have broad implications for understanding alternative physiological states, such as quiescence and dormancy, and create a new view of the cytoplasm as an adaptable fluid that can reversibly transition into a protective solid-like state. DOI: http://dx.doi.org/10.7554/eLife.09347.001 eLife Sciences Publications, Ltd 2016-03-22 /pmc/articles/PMC4850707/ /pubmed/27003292 http://dx.doi.org/10.7554/eLife.09347 Text en © 2016, Munder et al http://creativecommons.org/licenses/by/4.0/ This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Biophysics and Structural Biology
Munder, Matthias Christoph
Midtvedt, Daniel
Franzmann, Titus
Nüske, Elisabeth
Otto, Oliver
Herbig, Maik
Ulbricht, Elke
Müller, Paul
Taubenberger, Anna
Maharana, Shovamayee
Malinovska, Liliana
Richter, Doris
Guck, Jochen
Zaburdaev, Vasily
Alberti, Simon
A pH-driven transition of the cytoplasm from a fluid- to a solid-like state promotes entry into dormancy
title A pH-driven transition of the cytoplasm from a fluid- to a solid-like state promotes entry into dormancy
title_full A pH-driven transition of the cytoplasm from a fluid- to a solid-like state promotes entry into dormancy
title_fullStr A pH-driven transition of the cytoplasm from a fluid- to a solid-like state promotes entry into dormancy
title_full_unstemmed A pH-driven transition of the cytoplasm from a fluid- to a solid-like state promotes entry into dormancy
title_short A pH-driven transition of the cytoplasm from a fluid- to a solid-like state promotes entry into dormancy
title_sort ph-driven transition of the cytoplasm from a fluid- to a solid-like state promotes entry into dormancy
topic Biophysics and Structural Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4850707/
https://www.ncbi.nlm.nih.gov/pubmed/27003292
http://dx.doi.org/10.7554/eLife.09347
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