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A multiprotein regulatory module, MED16–MBR1&2, controls MED25 homeostasis during jasmonate signaling

Fangming Wu, Chuanlong Sun, Ziying Zhu, Lei Deng, Feifei Yu, Qi Xie, Chuanyou Li

2025Nature Communications12 citationsDOIOpen Access PDF

Abstract

Mediator25 (MED25) has been ascribed as a signal-processing and -integrating center that controls jasmonate (JA)-induced and MYC2-dependent transcriptional output. A better understanding of the regulation of MED25 stability will undoubtedly advance our knowledge of the precise regulation of JA signaling-related transcriptional output. Here, we report that Arabidopsis MED16 activates JA-responsive gene expression by promoting MED25 stability. Conversely, two homologous E3 ubiquitin ligases, MED25-BINDING RING-H2 PROTEIN1 (MBR1) and MBR2, negatively regulate JA-responsive gene expression by promoting MED25 degradation. MED16 competes with MBR1&2 to bind to the von Willebrand Factor A (vWF-A) domain of MED25, thereby antagonizing the MBR1&2-mediated degradation of MED25 in vivo. In addition, we show that MED16 promotes hormone-induced interactions between MYC2 and MED25, leading to the activation of JA-responsive gene expression. Collectively, our findings reveal a multiprotein regulatory module that robustly and tightly maintains MED25 homeostasis, which determines the strength of the transcriptional output of JA signaling. Wu et al. report that MED16, a novel component of the MYC2–MED25 functional complex in Arabidopsis, stabilizes MED25 by competing with MED25-BINDING RING-H2 PROTEIN1 (MBR1) and MBR2 for binding to the vWF-A domain of MED25, thereby preventing its degradation and activating JA-responsive gene expression.

Topics & Concepts

JasmonateCell biologyHomeostasisSignal transductionChemistryBiologyBiochemistryGeneArabidopsisMutantCalcium signaling and nucleotide metabolismPlant Molecular Biology ResearchNeurobiology and Insect Physiology Research