UPL3 Promotes BZR1 Degradation, Growth Arrest, and Seedling Survival under Starvation Stress inArabidopsis

Abstract

AbstractBRASSINAZONE RESISTANT 1 (BZR1) is a key transcription factor of the brassinosteroid signaling pathway but also a signaling hub that integrates diverse signals that modulate plant growth. Previous studies have shown that starvation causes BZR1 degradation, but the underlying mechanisms are not understood. Here we performed quantitative proteomic analysis of BZR1 interactome under starvation conditions and identified two BZR1-interacting ubiquitin ligases, BAF1 and UPL3. Compared to the wild type, theupl3mutants show long hypocotyl and increased BZR1 levels when grown under sugar starvation conditions but not when grown on sugar-containing media, indicating a role of UPL3 in BZR1 degradation specifically under starvation conditions. Theupl3mutants showed a reduced survival rate after starvation treatment, supporting the importance of UPL3-mediated BZR1 degradation and growth arrest for starvation survival. Treatments with inhibitors of TARGET of RAPAMYCIN (TOR) and autophagy altered BZR1 level in the wild type but were less effective inupl3, suggesting that UPL3 mediates the TOR-regulated and autophagy-dependent degradation of BZR1. Further, the UPL3 protein level is increased posttranscriptionally by starvation but decreased by sugar treatment. Our study identifies UPL3 as a key component that mediates sugar regulation of hormone signaling pathways, important for optimal growth and survival in plants.IN A NUTSHELLBackgroundThe coordination between signaling pathways that monitor the levels of photosynthate and growth hormones is crucial for optimizing growth and survival, but the underlying mechanisms are not fully understood. When the sugar level is low, the BZR1 transcription factor of the brassinosteroid (BR) signaling pathway is degraded, and hence growth is attenuated to prevent starvation and enhance survival. When sugar is sufficient, sugar signaling inhibits BZR1 degradation and enables BR promotion of plant growth. The key component that mediates starvation-induced BZR1 degradation remains unknown.QuestionWhat proteins interact with BZR1 and mediate its degradation under sugar starvation?FindingWe performed immunoprecipitation mass spectrometry analysis of BZR1 in starvation-treated Arabidopsis and identified many BZR1-interacting proteins, including two E3 ligases UPL3 and BAF1. Genetic analysis showed that UPL3 plays a specific and prominent role in promoting autophagy-dependent BZR1 degradation and plant survival under sugar-starvation conditions.Next stepHow sugar-TOR signaling regulates UPL3 level remains to be studied in the future.