Peroxynitrite and hydrogen peroxide elicit similar cellular stress responses mediated by the Ccp1 sensor protein

Peroxynitrite ONOO(H)] is an oxidant associated with deleterious effects in cells. Because it is an inorganic peroxide that reacts rapidly with peroxidases, we speculated that cells may respond to ONOO(H) and H₂O₂ challenge in a similar manner. We exposed yeast cells to SIN-1, a well-characterized ONOO(H) generator, and observed stimulation of catalase and peroxiredoxin (Prx) activities. Previously, we reported that H₂O₂ challenge increases these activities in wild-type cells and in cells producing the hyperactive mutant H₂O₂ sensor Ccp1^W191F but not in Ccp1-knockout cells (ccp1Δ). We find here that the response of ccp1Δ and ccp1^W191F cells to SIN-1 mirrors that to H₂O₂, identifying Ccp1 as a sensor of both peroxides. SIN-1 simultaneously releases ^•NO and O₂^•−, which react to form ONOO(H), but exposure of the three strains separately to an ^•NO donor (spermine-NONOate) or an O₂^•− generator (paraquat) mainly depresses catalase or Prx activity, whereas co-challenge with the NONOate and paraquat stimulates these activities. Because Ccp1 appears to sense ONOO(H) in cells, we examined its reaction with ONOO(H) in vitro and found that peroxynitrous acid (ONOOH) rapidly (k₂>10⁶ M⁻¹ s⁻¹) oxidizes purified Ccp1 to an intermediate with spectral and ferrocytochrome-oxidizing properties indistinguishable from those of its well-characterized compound I formed with H₂O₂. Importantly, the nitrite released from ONOOH is not oxidized to ^•NO₂ by Ccp1^׳s compound I, unlike peroxidases involved in immune defense. Overall, our results reveal that yeast cells mount a common antioxidant response to ONOO(H) and H₂O₂, with Ccp1 playing a pivotal role as an inorganic peroxide sensor.