Systemic signaling during abiotic stress combination in plants

Sara I. Zandalinas, Yosef Fichman, Amith R. Devireddy, Soham Sengupta, Rajeev K. Azad, Ron Mittler

Research output: Contribution to journalArticlepeer-review

250 Scopus citations

Abstract

Extreme environmental conditions, such as heat, salinity, and decreased water availability, can have a devastating impact on plant growth and productivity, potentially resulting in the collapse of entire ecosystems. Stress-induced systemic signaling and systemic acquired acclimation play canonical roles in plant survival during episodes of environmental stress. Recent studies revealed that in response to a single abiotic stress, applied to a single leaf, plants mount a comprehensive stress-specific systemic response that includes the accumulation of many different stress-specific transcripts and metabolites, as well as a coordinated stress-specific whole-plant stomatal response. However, in nature plants are routinely subjected to a combination of two or more different abiotic stresses, each potentially triggering its own stress-specific systemic response, highlighting a new fundamental question in plant biology: are plants capable of integrating two different systemic signals simultaneously generated during conditions of stress combination? Here we show that plants can integrate two different systemic signals simultaneously generated during stress combination, and that the manner in which plants sense the different stresses that trigger these signals (i.e., at the same or different parts of the plant) makes a significant difference in how fast and efficient they induce systemic reactive oxygen species (ROS) signals; transcriptomic, hormonal, and stomatal responses; aswell as plant acclimation. Our results shed light on how plants acclimate to their environment and survive a combination of different abiotic stresses. In addition, they highlight a key role for systemic ROS signals in coordinating the response of different leaves to stress.

Original languageEnglish
Pages (from-to)13810-13820
Number of pages11
JournalProceedings of the National Academy of Sciences of the United States of America
Volume117
Issue number24
DOIs
StatePublished - Jun 16 2020
Externally publishedYes

Funding

ACKNOWLEDGMENTS. This work was supported by funding from the NSF (Award nos. IOS-1353886, MCB-1936590, and IOS-1932639) and the University of Missouri. This work was supported by funding from the NSF (Award nos. IOS-1353886, MCB-1936590, and IOS-1932639) and the University of Missouri.

FundersFunder number
NSFIOS-1932639, IOS-1353886, MCB-1936590
University of Missouri
National Science Foundation1932639

    Keywords

    • Abiotic stress
    • Reactive oxygen species
    • Stress combination
    • Systemic acquired acclimation
    • Systemic signaling

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