LRRC58 defines an E3 ubiquitin ligase complex sensitive to cysteine abundance

Adaptation to fluctuating nutrient supply is essential for organismal survival, but how cells sense and respond to changes in the abundance of many critical nutrients remains undefined. One such example is the amino acid cysteine, whose reactive thiol group is exploited for diverse cellular functions. Here, by characterizing the machinery required for the conditional degradation of cysteine dioxygenase type I (CDO1), the critical enzyme responsible for cysteine catabolism, we identify a Cul2 E3 ligase complex containing the uncharacterized substrate adaptor LRRC58 that is sensitive to cysteine abundance. When cysteine is replete, LRRC58 activity is restrained through auto-ubiquitination and proteasomal degradation; upon cysteine deprivation, LRRC58 is stabilized to permit CDO1 degradation. Through saturation mutagenesis stability profiling, we systematically validate a structural model of the CDO1-LRRC58 interaction and identify residues at the LRRC58 C-terminus required for cysteine-dependent instability. The LRRC58-mediated degradation of CDO1 is essential to prevent ferroptotic cell death under conditions of cysteine scarcity, and mutations in CDO1 which cause neurodevelopmental defects in humans encode dominant-active proteins refractory to LRRC58 recognition. Altogether, these data reveal the CDO1-LRRC58 axis as a critical regulator of cysteine homeostasis that safeguards neural development.