When we think of plants, the phrase “stressed out” doesn’t typically come to mind. They are, after all, exempt from paying bills and tackling existential questions. However, environmental changes—both living (biotic) and nonliving (abiotic)—generate significant stressors for plants. New methods to improve plant tolerance and immunity amid climate change are therefore critical.
When a plant’s cell-surface immune receptors detect molecular cues announcing biotic invaders (such as bacteria, fungi, insects, or others), they form receptor complexes with partner proteins, signaling the cellular defense against pathogens. Some of these molecular cues are also generated when abiotic stressors damage plant cells. They include damage-inducible peptides or cellular debris, indicative of plant damage. This immunity signaling in response to abiotic stress lacked clear governing principles and mechanisms prior to a recent study led by Eliza Loo of Nara Institute of Science and Technology.
The results, published in a new Molecular Plant-Microbe Interactions special focus issue, show how immunity signaling can also enhance plant tolerance to abiotic stressors such as high salinity. Corresponding author Yusuke Saijo comments that “immune receptor pre-activation allows plants to increase the amplitude and gene repertoire of salt-inducible gene expression reprogramming when exposed to high salinity,” which helps enhance salt tolerance.
Surprisingly, they found that immune receptors and signaling components conferred salt tolerance even in plants challenged by non-pathogenic microbes. This suggests that plants can sense and initiate adaptive responses to abiotic stresses—upon detecting alterations in cues presented by plant-inhabiting microbes along fluctuations in environmental conditions—and acquire a broad range of stress tolerance tactics.
“The findings broaden our view of how plants sense and adapt to environmental changes, in particular salt and osmotic stress threatening crop production in agriculture. It also raises a new idea that immune receptors monitor plant-inhabiting microbes, thereby regulating plant adaptation to the environment beyond biotic interactions,” explains Saijo. Our global food supply depends on the health of plants and their ability to overcome stressors.
This lays the foundation for further studies linking biotic and abiotic stress signaling in plant sciences. Understanding the deeply complex relationship between plants and the living and non-living environment that surrounds them is essential to promoting plant health and, ultimately, human health.
Discovery of the interactions between plants and arbuscular mycorrhizal fungi
Eliza P.-I. Loo et al, Recognition of Microbe- and Damage-Associated Molecular Patterns by Leucine-Rich Repeat Pattern Recognition Receptor Kinases Confers Salt Tolerance in Plants, Molecular Plant-Microbe Interactions (2021). DOI: 10.1094/MPMI-07-21-0185-FI
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Plant immune systems can adapt to non-living environmental stressors, new study reveals (2022, August 24)
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