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The Arabidopsis receptor-like kinase WAKL4 limits cadmium uptake via phosphorylation and degradation of NRAMP1 transporter

Jun Yuan, Ya Zhao, Su Yu, Ying Sun, Guixin Li, Jing Ying Yan, Ji Ming Xu, Wo Na Ding, Moussa Benhamed, Rongliang Qiu, Chong Wei Jin, Shao Jian Zheng, Zhong Jie Ding

2024Nature Communications39 citationsDOIOpen Access PDF

Abstract

Cadmium (Cd) is a detrimental heavy metal propagated from soil to the food chain via plants, posing a great risk to human health upon consumption. Despite the understanding of Cd tolerance mechanisms in plants, whether and how plants actively respond to Cd and in turn restrict its uptake and accumulation remain elusive. Here, we identify a cell wall-associated receptor-like kinase 4 (WAKL4) involved in specific tolerance to Cd stress. We show that Cd rapidly and exclusively induces WAKL4 accumulation by promoting WAKL4 transcription and blocking its vacuole-dependent proteolysis in roots. The accumulated WAKL4 next interacts with and phosphorylates the Cd transporter NRAMP1 at Tyr488, leading to the enhanced ubiquitination and vacuole-dependent degradation of NRAMP1, and consequently reducing Cd uptake. Our findings therefore uncover a mechanism conferred by the WAKL4-NRAMP1 module that enables plants to actively respond to Cd and limit its uptake, informing the future molecular breeding of low Cd accumulated crops or vegetables. This study demonstrates a WAKL4 receptor-like kinase that is rapidly and specifically induced by Cadmium. It reveals a unique mechanism conferred by the WAKL4-NRAMP1 module that enables plants to actively respond to Cadmium and limit its uptake.

Topics & Concepts

ArabidopsisDegradation (telecommunications)TransporterPhosphorylationCadmiumKinaseChemistryCell biologyReceptorBiochemistryBiologyGeneMutantComputer scienceTelecommunicationsOrganic chemistryPlant Stress Responses and TolerancePlant Micronutrient Interactions and EffectsAluminum toxicity and tolerance in plants and animals