posted on 2022-10-05, 11:06authored byKaixiu Chen, Xinran Sun, Yingyan Liu, Yapu Yang, Min Shi, Jie Yu, Shusheng Zhang, Pengfei Shi
Photodynamic therapy (PDT) is quickly developing as a
hopeful cancer
treatment. However, hypoxic tumors, poor targeting, and photosensitizers
(PS) aggregation limited the efficiency of PDT. Here, we report a
hyaluronic acid (HA)-modified CeO2-nanoparticle-decorated
metal–organic framework (PCN-224@CeO2-HA) to enhance
PDT and achieve targeted treatment. CeO2 catalyzes H2O2 to produce O2 to solve hypoxia problems.
HA could target the CD44 receptor, which is highly expressed on the
tumor cell membranes. The growth of tumor cells 4T1 and MCF-7 was
controlled distinctly after being incubated with PCN-224@CeO2-HA under laser irradiation, while the survival ability of normal
cell LO2 was nearly unchanged. Importantly, PCN-224@CeO2-HA could be effectively aggregated within the tumor area after 12
h of injection, and the tumor growth was remarkably inhibited under
laser irradiation. PCN-224@CeO2-HA presented good biocompatibility
and an excellent antitumor effect, providing a new strategy to produce
O2in situ for enhanced PDT.