An Arabidopsis Mutant Over-Expressing Subtilase SBT4.13 Uncovers the Role of Oxidative Stress in the Inhibition of Growth by Intracellular Acidification

Intracellular acid stress inhibits plant growth by unknown mechanisms and it occurs in acidic soils and as consequence of other stresses. In order to identify mechanisms of acid toxicity, we screened activation-tagging lines of Arabidopsis thaliana for tolerance to intracellular acidification induce...

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Autores principales: Bissoli, Gaetano, Muñoz-Bertomeu, Jesús, Bueso, Eduardo, Sayas, Enric, Vilcara, Edgardo A., Felipo, Amelia, Niñoles, Regina, Rubio, Lourdes, Fernández, José A., Serrano, Ramón
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7037345/
https://www.ncbi.nlm.nih.gov/pubmed/32050714
http://dx.doi.org/10.3390/ijms21031173
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author Bissoli, Gaetano
Muñoz-Bertomeu, Jesús
Bueso, Eduardo
Sayas, Enric
Vilcara, Edgardo A.
Felipo, Amelia
Niñoles, Regina
Rubio, Lourdes
Fernández, José A.
Serrano, Ramón
author_facet Bissoli, Gaetano
Muñoz-Bertomeu, Jesús
Bueso, Eduardo
Sayas, Enric
Vilcara, Edgardo A.
Felipo, Amelia
Niñoles, Regina
Rubio, Lourdes
Fernández, José A.
Serrano, Ramón
author_sort Bissoli, Gaetano
collection PubMed
description Intracellular acid stress inhibits plant growth by unknown mechanisms and it occurs in acidic soils and as consequence of other stresses. In order to identify mechanisms of acid toxicity, we screened activation-tagging lines of Arabidopsis thaliana for tolerance to intracellular acidification induced by organic acids. A dominant mutant, sbt4.13-1D, was isolated twice and shown to over-express subtilase SBT4.13, a protease secreted into endoplasmic reticulum. Activity measurements and immuno-detection indicate that the mutant contains less plasma membrane H(+)-ATPase (PMA) than wild type, explaining the small size, electrical depolarization and decreased cytosolic pH of the mutant but not organic acid tolerance. Addition of acetic acid to wild-type plantlets induces production of ROS (Reactive Oxygen Species) measured by dichlorodihydrofluorescein diacetate. Acid-induced ROS production is greatly decreased in sbt4.13-1D and atrboh-D,F mutants. The latter is deficient in two major NADPH oxidases (NOXs) and is tolerant to organic acids. These results suggest that intracellular acidification activates NOXs and the resulting oxidative stress is important for inhibition of growth. The inhibition of acid-activated NOXs in the sbt4.13-1D mutant compensates inhibition of PMA to increase acid tolerance.
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spelling pubmed-70373452020-03-11 An Arabidopsis Mutant Over-Expressing Subtilase SBT4.13 Uncovers the Role of Oxidative Stress in the Inhibition of Growth by Intracellular Acidification Bissoli, Gaetano Muñoz-Bertomeu, Jesús Bueso, Eduardo Sayas, Enric Vilcara, Edgardo A. Felipo, Amelia Niñoles, Regina Rubio, Lourdes Fernández, José A. Serrano, Ramón Int J Mol Sci Article Intracellular acid stress inhibits plant growth by unknown mechanisms and it occurs in acidic soils and as consequence of other stresses. In order to identify mechanisms of acid toxicity, we screened activation-tagging lines of Arabidopsis thaliana for tolerance to intracellular acidification induced by organic acids. A dominant mutant, sbt4.13-1D, was isolated twice and shown to over-express subtilase SBT4.13, a protease secreted into endoplasmic reticulum. Activity measurements and immuno-detection indicate that the mutant contains less plasma membrane H(+)-ATPase (PMA) than wild type, explaining the small size, electrical depolarization and decreased cytosolic pH of the mutant but not organic acid tolerance. Addition of acetic acid to wild-type plantlets induces production of ROS (Reactive Oxygen Species) measured by dichlorodihydrofluorescein diacetate. Acid-induced ROS production is greatly decreased in sbt4.13-1D and atrboh-D,F mutants. The latter is deficient in two major NADPH oxidases (NOXs) and is tolerant to organic acids. These results suggest that intracellular acidification activates NOXs and the resulting oxidative stress is important for inhibition of growth. The inhibition of acid-activated NOXs in the sbt4.13-1D mutant compensates inhibition of PMA to increase acid tolerance. MDPI 2020-02-10 /pmc/articles/PMC7037345/ /pubmed/32050714 http://dx.doi.org/10.3390/ijms21031173 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Bissoli, Gaetano
Muñoz-Bertomeu, Jesús
Bueso, Eduardo
Sayas, Enric
Vilcara, Edgardo A.
Felipo, Amelia
Niñoles, Regina
Rubio, Lourdes
Fernández, José A.
Serrano, Ramón
An Arabidopsis Mutant Over-Expressing Subtilase SBT4.13 Uncovers the Role of Oxidative Stress in the Inhibition of Growth by Intracellular Acidification
title An Arabidopsis Mutant Over-Expressing Subtilase SBT4.13 Uncovers the Role of Oxidative Stress in the Inhibition of Growth by Intracellular Acidification
title_full An Arabidopsis Mutant Over-Expressing Subtilase SBT4.13 Uncovers the Role of Oxidative Stress in the Inhibition of Growth by Intracellular Acidification
title_fullStr An Arabidopsis Mutant Over-Expressing Subtilase SBT4.13 Uncovers the Role of Oxidative Stress in the Inhibition of Growth by Intracellular Acidification
title_full_unstemmed An Arabidopsis Mutant Over-Expressing Subtilase SBT4.13 Uncovers the Role of Oxidative Stress in the Inhibition of Growth by Intracellular Acidification
title_short An Arabidopsis Mutant Over-Expressing Subtilase SBT4.13 Uncovers the Role of Oxidative Stress in the Inhibition of Growth by Intracellular Acidification
title_sort arabidopsis mutant over-expressing subtilase sbt4.13 uncovers the role of oxidative stress in the inhibition of growth by intracellular acidification
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7037345/
https://www.ncbi.nlm.nih.gov/pubmed/32050714
http://dx.doi.org/10.3390/ijms21031173
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