L-Met Activates Arabidopsis GLR Ca2+ Channels Upstream of ROS Production and Regulates Stomatal Movement

Dongdong Kong; Heng Cheng Hu; Eiji Okuma; Yuree Lee; Hui Sun Lee; Shintaro Munemasa; Daeshik Cho; Chuanli Ju; Leah Pedoeim; Barbara Rodriguez; Juan Wang; Wonpil Im; Yoshiyuki Murata; Zhen Ming Pei; June M. Kwak

doi:10.1016/j.celrep.2016.11.015

L-Met Activates Arabidopsis GLR Ca²⁺ Channels Upstream of ROS Production and Regulates Stomatal Movement

Dongdong Kong, Heng Cheng Hu, Eiji Okuma, Yuree Lee, Hui Sun Lee, Shintaro Munemasa, Daeshik Cho, Chuanli Ju, Leah Pedoeim, Barbara Rodriguez, Juan Wang, Wonpil Im, Yoshiyuki Murata, Zhen Ming Pei, June M. Kwak

Department of New Biology

Research output: Contribution to journal › Article › peer-review

75 Scopus citations

Abstract

Plant glutamate receptor homologs (GLRs) have long been proposed to function as ligand-gated Ca²⁺ channels, but no in planta evidence has been provided. Here, we present genetic evidence that Arabidopsis GLR3.1 and GLR3.5 form Ca²⁺ channels activated by L-methionine (L-Met) at physiological concentrations and regulate stomatal apertures and plant growth. The glr3.1/3.5 mutations resulted in a lower cytosolic Ca²⁺ level, defective Ca²⁺-induced stomatal closure, and Ca²⁺-deficient growth disorder, all of which involved L-Met. Patch-clamp analyses of guard cells showed that GLR3.1/3.5 Ca²⁺ channels are activated specifically by L-Met, with the activation abolished in glr3.1/3.5. Moreover, GLR3.1/3.5 Ca²⁺ channels are distinct from previously characterized ROS-activated Ca²⁺ channels and act upstream of ROS, providing Ca²⁺ transients necessary for the activation of NADPH oxidases. Our data indicate that GLR3.1/3.5 constitute L-Met-activated Ca²⁺ channels responsible for maintaining basal [Ca²⁺]_cyt, play a pivotal role in plant growth, and act upstream of ROS, thereby regulating stomatal aperture.

Original language	English
Pages (from-to)	2553-2561
Number of pages	9
Journal	Cell Reports
Volume	17
Issue number	10
DOIs	https://doi.org/10.1016/j.celrep.2016.11.015
State	Published - 6 Dec 2016

Bibliographical note

Publisher Copyright:
© 2016 Institute for Basic Science / DGIST

Keywords

Ca channel
Ca deficiency
L-methionine
glutamate receptor homologs
guard cell
reactive oxygen species
stomatal movement

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10.1016/j.celrep.2016.11.015

Cite this

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title = "L-Met Activates Arabidopsis GLR Ca2+ Channels Upstream of ROS Production and Regulates Stomatal Movement",

abstract = "Plant glutamate receptor homologs (GLRs) have long been proposed to function as ligand-gated Ca2+ channels, but no in planta evidence has been provided. Here, we present genetic evidence that Arabidopsis GLR3.1 and GLR3.5 form Ca2+ channels activated by L-methionine (L-Met) at physiological concentrations and regulate stomatal apertures and plant growth. The glr3.1/3.5 mutations resulted in a lower cytosolic Ca2+ level, defective Ca2+-induced stomatal closure, and Ca2+-deficient growth disorder, all of which involved L-Met. Patch-clamp analyses of guard cells showed that GLR3.1/3.5 Ca2+ channels are activated specifically by L-Met, with the activation abolished in glr3.1/3.5. Moreover, GLR3.1/3.5 Ca2+ channels are distinct from previously characterized ROS-activated Ca2+ channels and act upstream of ROS, providing Ca2+ transients necessary for the activation of NADPH oxidases. Our data indicate that GLR3.1/3.5 constitute L-Met-activated Ca2+ channels responsible for maintaining basal [Ca2+]cyt, play a pivotal role in plant growth, and act upstream of ROS, thereby regulating stomatal aperture.",

keywords = "Ca channel, Ca deficiency, L-methionine, glutamate receptor homologs, guard cell, reactive oxygen species, stomatal movement",

author = "Dongdong Kong and Hu, {Heng Cheng} and Eiji Okuma and Yuree Lee and Lee, {Hui Sun} and Shintaro Munemasa and Daeshik Cho and Chuanli Ju and Leah Pedoeim and Barbara Rodriguez and Juan Wang and Wonpil Im and Yoshiyuki Murata and Pei, {Zhen Ming} and Kwak, {June M.}",

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doi = "10.1016/j.celrep.2016.11.015",

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T1 - L-Met Activates Arabidopsis GLR Ca2+ Channels Upstream of ROS Production and Regulates Stomatal Movement

AU - Kong, Dongdong

AU - Hu, Heng Cheng

AU - Okuma, Eiji

AU - Lee, Yuree

AU - Lee, Hui Sun

AU - Munemasa, Shintaro

AU - Cho, Daeshik

AU - Ju, Chuanli

AU - Pedoeim, Leah

AU - Rodriguez, Barbara

AU - Wang, Juan

AU - Im, Wonpil

AU - Murata, Yoshiyuki

AU - Pei, Zhen Ming

AU - Kwak, June M.

PY - 2016/12/6

Y1 - 2016/12/6

N2 - Plant glutamate receptor homologs (GLRs) have long been proposed to function as ligand-gated Ca2+ channels, but no in planta evidence has been provided. Here, we present genetic evidence that Arabidopsis GLR3.1 and GLR3.5 form Ca2+ channels activated by L-methionine (L-Met) at physiological concentrations and regulate stomatal apertures and plant growth. The glr3.1/3.5 mutations resulted in a lower cytosolic Ca2+ level, defective Ca2+-induced stomatal closure, and Ca2+-deficient growth disorder, all of which involved L-Met. Patch-clamp analyses of guard cells showed that GLR3.1/3.5 Ca2+ channels are activated specifically by L-Met, with the activation abolished in glr3.1/3.5. Moreover, GLR3.1/3.5 Ca2+ channels are distinct from previously characterized ROS-activated Ca2+ channels and act upstream of ROS, providing Ca2+ transients necessary for the activation of NADPH oxidases. Our data indicate that GLR3.1/3.5 constitute L-Met-activated Ca2+ channels responsible for maintaining basal [Ca2+]cyt, play a pivotal role in plant growth, and act upstream of ROS, thereby regulating stomatal aperture.

AB - Plant glutamate receptor homologs (GLRs) have long been proposed to function as ligand-gated Ca2+ channels, but no in planta evidence has been provided. Here, we present genetic evidence that Arabidopsis GLR3.1 and GLR3.5 form Ca2+ channels activated by L-methionine (L-Met) at physiological concentrations and regulate stomatal apertures and plant growth. The glr3.1/3.5 mutations resulted in a lower cytosolic Ca2+ level, defective Ca2+-induced stomatal closure, and Ca2+-deficient growth disorder, all of which involved L-Met. Patch-clamp analyses of guard cells showed that GLR3.1/3.5 Ca2+ channels are activated specifically by L-Met, with the activation abolished in glr3.1/3.5. Moreover, GLR3.1/3.5 Ca2+ channels are distinct from previously characterized ROS-activated Ca2+ channels and act upstream of ROS, providing Ca2+ transients necessary for the activation of NADPH oxidases. Our data indicate that GLR3.1/3.5 constitute L-Met-activated Ca2+ channels responsible for maintaining basal [Ca2+]cyt, play a pivotal role in plant growth, and act upstream of ROS, thereby regulating stomatal aperture.

KW - Ca channel

KW - Ca deficiency

KW - L-methionine

KW - glutamate receptor homologs

KW - guard cell

KW - reactive oxygen species

KW - stomatal movement

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DO - 10.1016/j.celrep.2016.11.015

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