CATALASE2 Coordinates SA-Mediated Repression of Both Auxin Accumulation and JA Biosynthesis in Plant Defenses

Yuan, Hongmei; Liu, Wen‐Cheng; Lu, Ying‐Tang

doi:10.1016/j.chom.2017.01.007

Cited by 197 publications

(238 citation statements)

References 34 publications

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“…The full extent to which catalase activity contributes to plant immune responses has only recently come to light. Catalases have previously been reported to bind SA, and a recent study showed that SA-induced suppression of CAT2 activity increased H 2 O 2 levels upon pathogen infection (21). Here we show that additionally, during oxidative stress and pathogen infection, CAT2 activity is regulated by NRX1.…”

Section: Discussionsupporting

confidence: 64%

Nucleoredoxin guards against oxidative stress by protecting antioxidant enzymes

Kneeshaw

Keyani

Delorme-Hinoux

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

104

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Cellular accumulation of reactive oxygen species (ROS) is associated with a wide range of developmental and stress responses. Although cells have evolved to use ROS as signaling molecules, their chemically reactive nature also poses a threat. Antioxidant systems are required to detoxify ROS and prevent cellular damage, but little is known about how these systems manage to function in hostile, ROS-rich environments. Here we show that during oxidative stress in plant cells, the pathogen-inducible oxidoreductase Nucleoredoxin 1 (NRX1) targets enzymes of major hydrogen peroxide (H 2 O 2 )-scavenging pathways, including catalases. Mutant nrx1 plants displayed reduced catalase activity and were hypersensitive to oxidative stress. Remarkably, catalase was maintained in a reduced state by substrateinteraction with NRX1, a process necessary for its H 2 O 2 -scavenging activity. These data suggest that unexpectedly H 2 O 2 -scavenging enzymes experience oxidative distress in ROS-rich environments and require reductive protection from NRX1 for optimal activity.Nucleoredoxin | Thioredoxin | catalase | oxidative stress | reactive oxygen species

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Section: Discussionsupporting

confidence: 64%

Nucleoredoxin guards against oxidative stress by protecting antioxidant enzymes

Kneeshaw

Keyani

Delorme-Hinoux

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

104

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“…Interestingly, the crosstalk between defense and growth is, at least partially, redox-mediated. The catalase mutant cat2 , which is under constitutive oxidative stress, exhibits dwarfism but has increased resistance against biotrophic pathogens [74–76]. It was found that SA directly binds to plant catalases to inhibit their activity [77,78].…”

Section: Balancing Growth and Immunity: Combined Influence Of The mentioning

confidence: 99%

“…It was found that SA directly binds to plant catalases to inhibit their activity [77,78]. In A. thaliana , the inhibition of CAT2 activity by SA leads to an increase in H 2 O 2 and subsequent sulfenylation (oxidation of a thiol -SH into sulfenic acid -SOH) of tryptophan synthetase β subunit 1 (TSB1) [76]. Reduced levels of tryptophan, the auxin precursor, cause reduced growth, but stronger immunity.…”

Section: Balancing Growth and Immunity: Combined Influence Of The mentioning

confidence: 99%

“…Furthermore, because ROS/RNS are required for defense against both biotrophs [27,42,48,50] and necrotrophs/herbivores [45,59], they could also play a significant role in limiting the SA-JA antagonism, which is often exploited by attackers [69,70]. For example, the cat2 mutation increases defense against biotrophs but decreases resistance to necrotrophs by suppressing JA biosynthesis [76]. In contrast, plants without apoplastic peroxidase activity are unable to mount efficient defense against both types of pathogens [45], implying that the source of ROS/RNS also affects how the plants balance SA- and JA-dependent defenses.…”

Section: Future Directionsmentioning

confidence: 99%

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Redox and the circadian clock in plant immunity: A balancing act

Karapetyan

Dong

2018

Free Radical Biology and Medicine

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Plants’ reliance on sunlight for energy makes their light-driven circadian clock a critical regulator in balancing the energy needs for vital activities such as growth and defense. Recent studies show that the circadian clock acts as a strategic planner to prime active defense responses towards the morning or daytime when conditions, such as the opening of stomata required for photosynthesis, are favorable for attackers. Execution of the defense response, on the other hand, is determined according to the cellular redox state and is regulated in part by the production of reactive oxygen and nitrogen species upon pathogen challenge. The interplay between redox and the circadian clock further gates the onset of defense response to a specific time of the day to avoid conflict with growth-related activities. In this review, we focus on discussing the roles of the circadian clock as a robust overseer and the cellular redox as a dynamic executor of plant defense.

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“…For example, CAT3 and ACX4 activity and transcripts are both elevated by carbon-starvation (Contento and Bassham, 2010). Moreover, cat2 mutants display decreased ACX activity Yuan et al, 2017), and overexpressing ACX3 rescues cat2 seedling growth defects . The finding that ACX activity is limiting for cat2 growth implies that ACX enzymes suffer damage when catalase is dysfunctional.…”

Section: Reactive Oxygen and Nitrogen Species: Not Just For Cell Deathmentioning

confidence: 99%