Abstract
Osmotic stress severely inhibits plant growth and development, causing huge loss of crop quality and quantity worldwide. Melatonin is an important signaling molecule that generally confers plant increased tolerance to various environmental stresses, however, whether and how melatonin participates in plant osmotic stress response remain elusive. Here, we report that melatonin enhances plant osmotic stress tolerance through increasing ROS-scavenging ability, and melatonin receptor CAND2 plays a key role in melatonin-mediated plant response to osmotic stress. Upon osmotic stress treatment, the expression of melatonin biosynthetic genes including SNAT1, COMT1, and ASMT1 and the accumulation of melatonin are increased in the wild-type plants. The snat1 mutant is defective in osmotic stress-induced melatonin accumulation and thus sensitive to osmotic stress, while exogenous melatonin enhances the tolerance of the wild-type plant and rescues the sensitivity of the snat1 mutant to osmotic stress by upregulating the expression and activity of catalase and superoxide dismutase to repress H2O2 accumulation. Further study showed that the melatonin receptor mutant cand2 exhibits reduced osmotic stress tolerance with increased ROS accumulation, but exogenous melatonin cannot revert its osmotic stress phenotype. Together, our study reveals that CADN2 functions necessarily in melatonin-conferred osmotic stress tolerance by activating ROS-scavenging ability in Arabidopsis.
Highlights
Melatonin (N-acetyl-5-methoxytryptamine) is a well-studied animal hormone synthesized and secreted by the pineal gland in mammals, and serves as a vital signaling molecule in plants [1,2,3]
Our results showed that upon osmotic stress exposure, the expression of SNAT1, COMT1, and ASMT1 was significantly induced in the wild-type plants (Figure 1A–C), suggesting the involvement of melatonin biosynthesis in plant response to osmotic stress
Melatonin accumulation was extensively promoted by osmotic stress in a mannitol dosage-dependent manner (Figure 1D), which is consistent with the effect of osmotic stress on the expression of melatonin biosynthesis genes
Summary
Melatonin (N-acetyl-5-methoxytryptamine) is a well-studied animal hormone synthesized and secreted by the pineal gland in mammals, and serves as a vital signaling molecule in plants [1,2,3]. Melatonin plays important roles in the regulation of plant growth, development, and responses to various biotic and abiotic stresses including salt, drought, heavy metal, cold, heat, and pathogen infection [3,4,5]. Recent study documented that the diurnal rhythmic oscillation pattern of melatonin accumulation in the wild-type plant was impaired in the snat mutant [10]. Drought and high salinity are two major abiotic stresses adversely affecting plant growth and development, causing considerable losses in crop production and quality [11,12]
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