Noura, S.; Ferreira Da Silva Santos, J.; Feraru, E.; Hoernstein, S. N. W.; Feraru, M. I.; Montero-Morales, L.; Roessling, A.-K.; Scheuring, D.; Strasser, R.; Huesgen, P. F.; Waidmann, S.; Kleine-Vehn, J.

Auxin is a crucial phytohormone that regulates plant development and facilitates dynamic responses to environmental changes through subcellular control mechanisms. PIN-LIKES (PILS) are auxin transport facilitators at the endoplasmic reticulum (ER) that mediate nuclear auxin abundance and signalling. While the posttranslational regulation of PILS is important for acclimating growth responses, the molecular mechanisms involved remain largely unknown. This study demonstrates that components of the ER-associated degradation (ERAD) machinery regulate the proteasome-dependent degradation of functional PILS proteins under non-stressed conditions. We further reveal that both internal and external signals utilise the ERAD complex to differentially modulate the turnover rates of PILS proteins. Our findings uncover an additional physiological role of the ERAD complex in regulating PILS protein turnover. This finding uncovers the interplay between protein homeostasis at the ER and growth regulation, opening new molecular avenues into how plants acclimate to internal and external cues.