Abstract
Mitochondrial REDOX homeostasis is unbalanced by large amounts of reactive oxygen species production and reduced glutathione, leading to lipid oxidation-induced ferroptosis, which enhanced cancer immunotherapy. Thus, disrupting mitochondrial redox homeostasis represents a promising strategy for the treatment of lung cancer. In this study, a co-delivery system of based on chondroitin sulfate (CS) (CS-CA-CUR-TPP, CCCT) for natural medicines (Curcumin, CUR; and Cinnamaldehyde CA) was successfully constructed, which resulted in elevated ROS levels in cancer cells. Under the action of CS specifically targeting tumor cells, CCCT NPs is enriched and taken up by lung cancer cells. Acid responsiveness causes the CCCT NPs to break and escape from the lysosome, and CUR targets and destroys mitochondria under the action of mitochondrial target head triphenylphosphine (TPP). CA collaborates with CUR to produce large amounts of ROS and reduce GSH in a time-dependent manner in mitochondria for disruption of REDOX homeostasis, and triggers ferroptosis by reducing the expression of GXP4 and xCT proteins. The immunogenic cell death (ICD) after ferroptosis promotes interferon γ (IFN-γ), TNF-a, and IL-6 secretion. Our results desmontrat CCCT can promote inhibition of tumor growth by enhancing tumor immunogenicity. This study may provide a potential avenue for the advancement of self-delivery nanoparticles to overcome resistance to apoptosis in tumor therapy.