Universal antibacterial and anti-inflammatory treatment using chitosan-prussian blue nanozyme

Abstract

Bacterial infections are a growing global public health problem, exacerbated by the widespread and often inappropriate use of antibiotics, leading to the emergence of non-antibiotic pathogens. Herein, we synthesized a chitosan-Prussian blue nanozyme (CS@PB), a non-antibiotic agent, for universal antibacterial and anti-inflammatory treatment of bacterial infections. Confocal microscopy images showed that CS@PB significantly enhanced the physical interaction between chitosan and bacteria, thereby increasing the antibacterial ability. Moreover, these nanozymes exhibited potent antioxidant and anti-inflammatory properties, promoting macrophage polarization toward the M2-like phenotype, reducing oxidative stress, and alleviating inflammation. This dual-action approach effectively accelerates the healing of bacteria-infected inflammatory wounds. The synergistic bactericidal and anti-inflammatory properties of CS@PBs inhibited wound infection and promoted the healing of skin infections in a mouse model. In addition, CS@PB displayed remarkable lung retention and potent bactericidal effects, resulting in significantly improved survival rates in mouse models of acute pulmonary bacterial infections. In conclusion, CS@PBs exhibited exceptional bactericidal capabilities, anti-inflammatory properties, and minimal toxicity, suggesting that they are promising candidates for a new generation of non-antibiotic antimicrobial agents for the treatment of bacterial infections.