Abstract

AbstractDry eye disease (DED) is a widespread ophthalmic illness that inflicts massive economic and medical burdens on society. Although oxidative stress is closely associated with the onset of DED, barely any quantities of antioxidants are clinically available owing to low efficiency, toxicity, and poor bioavailability. Cerium‐based nanozymes possess promising enzyme‐mimetic activities in scavenging reactive oxygen species (ROS). Moreover, the ultra‐small metal–organic frameworks (MOFs) have the potential for more efficient drug delivery, ROS elimination, and therapeutic efficacy. However, the development of ultra‐small cerium‐based MOFs (Ce‐MOFs) is limited to a small minority due to challenges in the synthetic process and stability. By simply adjusting raw ingredients concentrations, three types of Ce‐MOFs with distinct particle sizes are synthesized: Ce‐MOF 1 (213 nm), Ce‐MOF 2 (36 nm), and Ce‐MOF 3 (2 nm). In comparison, the obtained ultra‐small Ce‐MOF 3 exhibited superior ROS scavenging and antioxidant capacity, decreased cytotoxicity, and excellent ocular penetration. Therapeutically, Ce‐MOF 3 is demonstrated to be highly efficient in alleviating DED by suppressing oxidative stress and inflammation, boosting corneal epithelial repair, and facilitating tear secretion recovery. The novel ultra‐small Ce‐MOF 3 may serve as a promising alternative treatment for DED and other ROS‐related disorders when combined with ocular biocompatibility.

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