Autophagy-mediated CTR1 turnover orchestrates the reciprocal interaction between autophagy and ethylene signaling

Abstract

ABSTRACTThe phytohormone ethylene and autophagy are crucial for plant adaptation to various environmental stresses, yet the integration of these signaling networks into stress responses is not fully understood. Here, we report that ethylene signaling and autophagy reciprocally regulate each other through Constitutive Triple Response 1 (CTR1), a negative regulator of ethylene signaling. Autophagy facilitates the turnover of the CTR1 protein, which interacts with the key autophagy-related protein ATG8 as autophagic cargo. Impaired autophagy attenuates ethylene responses. Conversely, ethylene-insensitive mutants exhibit enhanced autophagic flux, while a constitutive ethylene response mutant is hypersensitive to carbon starvation stress, which induces autophagy. This suggests that ethylene suppresses autophagy during carbon limitation. We further elucidated that ethylene receptors with a receiver domain play a primary role in modulating autophagy, while receptor kinase activity is not essential. Our findings uncover that the autophagic control of CTR1 degradation allows reciprocal cross-regulation between autophagy and ethylene transduction cascades, optimizing stress responses and resilience.