Brassinosteroids fine-tune secondary and primary sulfur metabolism through BZR1-mediated transcriptional regulation.

J Integr Plant Biol

Department of Horticulture, Key Laboratory of Horticultural Plant Growth, Development and Quality improvement, Ministry of Agriculture, Zhejiang University, Hangzhou, 310058, China.

Published: May 2023

AI Article Synopsis

  • - Plants have developed complex metabolic systems and regulatory networks to adapt to environmental changes, particularly in managing secondary metabolites like glucosinolates (GSLs) and primary metabolites in response to stress and nutrient deficiency.
  • - The growth-promoting hormone brassinosteroid (BR) inhibits GSL accumulation and enhances key primary sulfur metabolites such as cysteine and glutathione in Arabidopsis and Brassica crops, thereby balancing growth and metabolic needs.
  • - BZR1, a key component of BR signaling, regulates GSL biosynthesis by repressing specific pathways and activating enzymes crucial for primary sulfur metabolism, highlighting the role of BR in prioritizing sulfur for growth under normal conditions.

Article Abstract

For adaptation to ever-changing environments, plants have evolved elaborate metabolic systems coupled to a regulatory network for optimal growth and defense. Regulation of plant secondary metabolic pathways such as glucosinolates (GSLs) by defense phytohormones in response to different stresses and nutrient deficiency has been intensively investigated, while how growth-promoting hormone balances plant secondary and primary metabolism has been largely unexplored. Here, we found that growth-promoting hormone brassinosteroid (BR) inhibits GSLs accumulation while enhancing biosynthesis of primary sulfur metabolites, including cysteine (Cys) and glutathione (GSH) both in Arabidopsis and Brassica crops, fine-tuning secondary and primary sulfur metabolism to promote plant growth. Furthermore, we demonstrate that of BRASSINAZOLE RESISTANT 1 (BZR1), the central component of BR signaling, exerts distinct transcriptional inhibition regulation on indolic and aliphatic GSL via direct MYB51 dependent repression of indolic GSL biosynthesis, while exerting partial MYB29 dependent repression of aliphatic GSL biosynthesis. Additionally, BZR1 directly activates the transcription of APR1 and APR2 which encodes rate-limiting enzyme adenosine 5'-phosphosulfate reductases in the primary sulfur metabolic pathway. In summary, our findings indicate that BR inhibits the biosynthesis of GSLs to prioritize sulfur usage for primary metabolites under normal growth conditions. These findings expand our understanding of BR promoting plant growth from a metabolism perspective.

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Source
http://dx.doi.org/10.1111/jipb.13442DOI Listing

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