Recent findings suggest a functional interaction of the drug resistance enzyme glutathione S-transferase P (GSTP) with the transcription factor Nrf2, a master regulator of the adaptive stress response to cellular electrophiles. The effect of this interaction on the metabolism and redox of cellular thiols was investigated in this study�during the exposure to alkylating Se-compounds in murine embryonic fibroblasts (MEFs). GSTP1-1 gene ablation was confirmed to upregulate Nrf2 activity and to increase Cys uptake and the de novo biosynthesis of reduced glutathione (GSH)�that was readily released in the extracellular medium together with other cellular thiols. This latter response was associated with a higher expression of the membrane transporter MRP1 and was markedly stimulated by the treatment with alkylating Se-compounds together with protein S-glutathionylation that was observed to be under the influence of� GSTP expression. The response of cellular thiols to Se-compounds was not altered by the transient (SiRNA-induced) or stable inactivation of NRF2 in GSTP competent or hGSTP1 transfected cells, while defects of GSH biosynthesis, efflux, and redox were observed after NRF2 silencing in GSTP^−/− MEFs. In conclusion, GSTP is confirmed to functionally interact with Nrf2 and to have a prominent position in the pecking order of factors that control both the Nrf2-dependent and independent response of cellular thiols to alkylating agents.