Lack of effect of physiological oxidative stress on N-terminal cysteine dependent proteolysis

Oxidative post-translational modifications on the sulfhydryl group of cysteines can occur spontaneously or enzymatically. The dioxygenation of N-terminal cysteines has emerged as a new oxygen sensing paradigm, catalysed by 2-aminoethanethiol dioxygenase (ADO) in mammals. Conflicting evidence has been reported in recent years on whether this reaction can occur in the absence of ADO. Here we sought to address whether physiological oxidative stress can interfere with ADO-catalysed N-terminal dioxygenation. Using a system to produce titratable intracellular levels of H ₂ O ₂ , we demonstrate that the stability of RGS4 and 5 is not affected by oxidative stress, whether ADO is present or not. However, cytotoxic levels of oxidative stress did induce an increase in RGS4/5 protein levels that occurred independently of the Cys N-degron pathway. This effect of tBHP was reduced by Fe ²⁺ chelation and perturbations of lysosomal function, suggesting the possible involvement of ferroptosis. We conclude that N-terminal cysteine dependent proteolysis of RGS4/5 is not sensitive to physiological oxidative stress, but these proteins can be stabilised during the process of oxidative stress-induced cell death through an N-terminal cysteine independent mechanism.