Tumor pH-responsive metastable-phase manganese sulfide nanotheranostics for traceable hydrogen sulfide gas therapy primed chemodynamic therapy

Manganese-based nanomaterials have piqued great interest in cancer nanotheranostics, owing to their excellent physicochemical properties.Here we report a facile wet-chemical synthesis of size-controllable, biodegradable, and metastable γ-phase manganese sulfide nanotheranostics, which is employed for tumor pH-responsive traceable gas therapy primed chemodynamic therapy (CDT), using bovine serum albumin (BSA) as a biological template (The final product was denoted as MnS@BSA).The as-prepared MnS@BSA can be degraded in response to the mildly acidic tumor microenvironment, releasing hydrogen sulfide (H 2 S) for gas therapy and manganese ions for magnetic resonance imaging (MRI) and CDT.In vitro experiments validated the pH-responsiveness of MnS@BSA at pH 6.8 and both H 2 S gas and •OH radicals were detected during its degradation.In vivo experiments showed efficiently tumor turn-on T 1 -weighted MRI, significantly suppressed tumor growth and greatly prolonged survival of tumor-bearing mice following intravenous administration of MnS@BSA.Our findings indicated that MnS@BSA nanotheranostics hold great potential for traceable H 2 S gas therapy primed CDT of cancer.