AI Article Synopsis
- Imaging guided cancer therapy merges diagnosis and treatment to target and eliminate tumors more effectively.
- The study introduces a novel nanocomposite (PCO) that transforms into PCS specifically in colorectal tumor tissues, enhancing photoacoustic imaging and therapy through ferroptosis.
- The PCS nanocomposite initiates reactions that generate hydroxyl radicals, leading to oxidative stress in cancer cells, thereby promoting ferroptosis and improving treatment outcomes in a weakly acidic tumor environment.
Article Abstract
Imaging guided cancer therapy is a comprehensive strategy that combines the diagnosis and treatment to eradicate tumors. Ferroptosis is a distinct programmed cell death and holds great potential in cancer therapy. In this study, a hydrogen sulfide (HS)-activated PEGylated Pd@CuO core-shell nanocomposite (termed PCO) that in situ transformed into Pd@CuS (termed PCS) at colorectal tumor tissues is developed for colorectal cancer photoacoustic (PA) imaging and photothermal-enhanced ferroptosis therapy in NIR-II window. The Cu on the surface of PCS can catalyze the Fenton-like reaction with overexpressed HO in the colon tumor tissues, yielding hydroxyl radicals (·OH) and Cu. Moreover, the PCS accelerates the Fenton-like reaction to generate more ·OH. The PCS displays dual peroxidase- and glutathione oxidase-mimic enzymatic activity in weakly acidic tumor microenvironment (TME). Additionally, the glutathione depletion by Cu results in the production of Cu and glutathione disulfide as well as the down-regulation of glutathione peroxidase 4. The interaction of polyunsaturated fatty acids with ·OH induces the up-regulation of lipid peroxides on cellular membrane, thereby causing ferroptosis. Hence, this study has developed the HS-activated PCO that in situ transforms into PCS, as a novel colon cancer diagnosis-treatment nanoprobe, for PA imaging guided precise diagnosis and efficient therapy of colon cancer.
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| http://dx.doi.org/10.1016/j.bios.2024.116906 | DOI Listing |
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