Self‐Assembled Aza‐Boron‐Dipyrromethene‐Based H2S Prodrug for Synergistic Ferroptosis‐Enabled Gas and Sonodynamic Tumor Therapies

Abstract Glioblastoma multiforme (GBM) is the most aggressive and lethal subtype of gliomas of the central nervous system. The efficacy of sonodynamic therapy (SDT) against GBM is significantly reduced by the expression of apoptosis‐inhibitory proteins in GBM cells. In this study, an intelligent nanoplatform (denoted as Aza‐BD@PC NPs) based on the aza‐boron‐dipyrromethene dye and phenyl chlorothionocarbonate‐modified DSPE‐PEG molecules is developed for synergistic ferroptosis‐enabled gas therapy (GT) and SDT of GBM. Once internalized by GBM cells, Aza‐BD@PC NPs showed effective cysteine (Cys) consumption and Cys‐triggered hydrogen sulfide (H2S) release for ferroptosis‐enabled GT, thereby disrupting homeostasis in the intracellular environment, affecting GBM cell metabolism, and inhibiting GBM cell proliferation. Additionally, the released Aza‐BD generated abundant singlet oxygen (1O2) under ultrasound irradiation for favorable SDT. In vivo and in vitro evaluations demonstrated that the combined functions of Cys consumption, H2S production, and 1O2 production induced significant death of GBM cells and markedly inhibited tumor growth, with an impressive inhibition rate of up to 97.5%. Collectively, this study constructed a cascade nanoreactor with satisfactory Cys depletion performance, excellent H2S release capability, and prominent reactive oxygen species production ability under ultrasound irradiation for the synergistic ferroptosis‐enabled GT and SDT of gliomas.