Meyer, G. W.; Shaikh, M. A.; Mildenhall, F.; Drowns, M.; Hearn, C. T.; Wang, X.; Liao, C.-J.; Thirumlaikumar, V. P.; Varala, K.; Widhalm, J. R.

Juglone is the phytotoxic 1,4-naphthoquinone responsible for the allelopathic effects of black walnut (Juglans nigra), yet how plants perceive and respond to juglone remain poorly understood. We conducted transcriptome profiling of rosettes and roots of Arabidopsis thaliana exposed to juglone from 30 min to 5 d, along with targeted metabolic profiling, biochemical assays, and untargeted proteomics to gain a systems-level understanding of how plants respond to juglone and to test hypotheses underlying its phytotoxicity. Juglone exposure induced expression of genes involved in glutathione, cysteine, and sulfur metabolism pathways, and in protein homeostasis. We found that juglone depletes the pool of reduced glutathione (GSH) in roots, in part, through conjugation. We demonstrate that via upregulation of transcription factors (NAC53 and NAC78), the response to juglone activates components of the proteasome stress regulon and triggers extensive proteome remodeling with engagement of the autophagy pathway when proteasome capacity is limited. Our findings (i) indicate that thiol depletion and disruption of proteostasis through juglones dual redox cycling and alkylation activities are central to its phytotoxicity, (ii) cast doubt on previous reports that juglone targets a specific enzyme in plants or other organisms, and (iii) provide insight into how the chemical properties of allelopathic quinones shape their ecological roles.