RIN4 functions with plasma membrane H+-ATPases to regulate stomatal apertures during pathogen attack

Jun Liu; James M. Elmore; Anja Thoe Fuglsang; Michael Palmgren; Brian J. Staskawicz; Gitta Coaker

doi:10.1371/journal.pbio.1000139

RIN4 functions with plasma membrane H⁺-ATPases to regulate stomatal apertures during pathogen attack

Jun Liu, James M. Elmore, Anja Thoe Fuglsang, Michael Palmgren, Brian J. Staskawicz, Gitta Coaker

179 Citations (Scopus)

1280 Downloads (Pure)

Abstract

Pathogen perception by the plant innate immune system is of central importance to plant survival and productivity. The

Arabidopsis protein RIN4 is a negative regulator of plant immunity. In order to identify additional proteins involved in RIN4-

mediated immune signal transduction, we purified components of the RIN4 protein complex. We identified six novel

proteins that had not previously been implicated in RIN4 signaling, including the plasma membrane (PM) H+-ATPases AHA1

and/or AHA2. RIN4 interacts with AHA1 and AHA2 both in vitro and in vivo. RIN4 overexpression and knockout lines exhibit

differential PM H+-ATPase activity. PM H+-ATPase activation induces stomatal opening, enabling bacteria to gain entry into

the plant leaf; inactivation induces stomatal closure thus restricting bacterial invasion. The rin4 knockout line exhibited

reduced PM H+-ATPase activity and, importantly, its stomata could not be re-opened by virulent Pseudomonas syringae. We

also demonstrate that RIN4 is expressed in guard cells, highlighting the importance of this cell type in innate immunity.

These results indicate that the Arabidopsis protein RIN4 functions with the PM H+-ATPase to regulate stomatal apertures,

inhibiting the entry of bacterial pathogens into the plant leaf during infection.

Original language	English
Journal	PLoS - Biology
Volume	7
Issue number	6
Number of pages	16
ISSN	1544-9173
DOIs	https://doi.org/10.1371/journal.pbio.1000139
Publication status	Published - 2009

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title = "RIN4 functions with plasma membrane H+-ATPases to regulate stomatal apertures during pathogen attack",

abstract = "AbstractPathogen perception by the plant innate immune system is of central importance to plant survival and productivity. TheArabidopsis protein RIN4 is a negative regulator of plant immunity. In order to identify additional proteins involved in RIN4-mediated immune signal transduction, we purified components of the RIN4 protein complex. We identified six novelproteins that had not previously been implicated in RIN4 signaling, including the plasma membrane (PM) H+-ATPases AHA1and/or AHA2. RIN4 interacts with AHA1 and AHA2 both in vitro and in vivo. RIN4 overexpression and knockout lines exhibitdifferential PM H+-ATPase activity. PM H+-ATPase activation induces stomatal opening, enabling bacteria to gain entry intothe plant leaf; inactivation induces stomatal closure thus restricting bacterial invasion. The rin4 knockout line exhibitedreduced PM H+-ATPase activity and, importantly, its stomata could not be re-opened by virulent Pseudomonas syringae. Wealso demonstrate that RIN4 is expressed in guard cells, highlighting the importance of this cell type in innate immunity.These results indicate that the Arabidopsis protein RIN4 functions with the PM H+-ATPase to regulate stomatal apertures,inhibiting the entry of bacterial pathogens into the plant leaf during infection.",

author = "Jun Liu and Elmore, {James M.} and Fuglsang, {Anja Thoe} and Michael Palmgren and Staskawicz, {Brian J.} and Gitta Coaker",

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AU - Liu, Jun

AU - Elmore, James M.

AU - Fuglsang, Anja Thoe

AU - Palmgren, Michael

AU - Staskawicz, Brian J.

AU - Coaker, Gitta

N1 - Paper id:: e1000139

PY - 2009

Y1 - 2009

N2 - AbstractPathogen perception by the plant innate immune system is of central importance to plant survival and productivity. TheArabidopsis protein RIN4 is a negative regulator of plant immunity. In order to identify additional proteins involved in RIN4-mediated immune signal transduction, we purified components of the RIN4 protein complex. We identified six novelproteins that had not previously been implicated in RIN4 signaling, including the plasma membrane (PM) H+-ATPases AHA1and/or AHA2. RIN4 interacts with AHA1 and AHA2 both in vitro and in vivo. RIN4 overexpression and knockout lines exhibitdifferential PM H+-ATPase activity. PM H+-ATPase activation induces stomatal opening, enabling bacteria to gain entry intothe plant leaf; inactivation induces stomatal closure thus restricting bacterial invasion. The rin4 knockout line exhibitedreduced PM H+-ATPase activity and, importantly, its stomata could not be re-opened by virulent Pseudomonas syringae. Wealso demonstrate that RIN4 is expressed in guard cells, highlighting the importance of this cell type in innate immunity.These results indicate that the Arabidopsis protein RIN4 functions with the PM H+-ATPase to regulate stomatal apertures,inhibiting the entry of bacterial pathogens into the plant leaf during infection.

AB - AbstractPathogen perception by the plant innate immune system is of central importance to plant survival and productivity. TheArabidopsis protein RIN4 is a negative regulator of plant immunity. In order to identify additional proteins involved in RIN4-mediated immune signal transduction, we purified components of the RIN4 protein complex. We identified six novelproteins that had not previously been implicated in RIN4 signaling, including the plasma membrane (PM) H+-ATPases AHA1and/or AHA2. RIN4 interacts with AHA1 and AHA2 both in vitro and in vivo. RIN4 overexpression and knockout lines exhibitdifferential PM H+-ATPase activity. PM H+-ATPase activation induces stomatal opening, enabling bacteria to gain entry intothe plant leaf; inactivation induces stomatal closure thus restricting bacterial invasion. The rin4 knockout line exhibitedreduced PM H+-ATPase activity and, importantly, its stomata could not be re-opened by virulent Pseudomonas syringae. Wealso demonstrate that RIN4 is expressed in guard cells, highlighting the importance of this cell type in innate immunity.These results indicate that the Arabidopsis protein RIN4 functions with the PM H+-ATPase to regulate stomatal apertures,inhibiting the entry of bacterial pathogens into the plant leaf during infection.

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DO - 10.1371/journal.pbio.1000139

M3 - Journal article

C2 - 19564897

SN - 1544-9173

VL - 7

JO - PLoS Biology

JF - PLoS Biology

IS - 6

ER -

RIN4 functions with plasma membrane H+-ATPases to regulate stomatal apertures during pathogen attack

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RIN4 functions with plasma membrane H⁺-ATPases to regulate stomatal apertures during pathogen attack