A Multifunctional Nanosystem Based on Bacterial Cell-Penetrating Photosensitizer for Fighting Periodontitis Via Combining Photodynamic and Antibiotic Therapies.

Abstract

Photodynamic therapy (PDT), an emerging approach that involves photosensitizers, light, and molecular oxygen, has shown promise for fighting periodontitis. However, PDT does not always acquire the desired therapeutic outcomes since some photosensitizers have strong hydrophobic properties and are difficult to absorb efficiently by periodontal pathogenic bacteria. Here, a hydrophobic photosensitizer chlorin e6 (Ce6) was hydrophilically modified via conjugation with TAT peptide, a cationic cell-penetrating peptide, to improve its solubility and enhance its bacterial adsorption by promoting its interaction with the negatively charged cell walls and penetration through the cell membranes. The obtained TAT-Ce6 conjugate (TAT-Ce6) was used to prepare self-assembled nanoparticles (NPs) for loading tinidazole (TDZ), a clinically used antibiotic agent, thus hoping to achieve synergistic antiperiodontitis effects through combining PDT and antibiotic therapy. Compared to free Ce6, TAT-Ce6 nanoparticles (TAT-Ce6 NPs) had greatly enhanced adsorption and penetration abilities for periodontal pathogen bacteria and also exhibited significantly increased PDT efficiencies in both periodontal pathogen bacteria and monocyte macrophages. Upon 635 nm laser irradiation, TDZ-loaded TAT-Ce6 (TAT-Ce6/TDZ) NPs exerted remarkable synergistic antiperiodontitis effects of PDT and antibiotic therapy, reflecting in the effective killing of periodontal pathogenic bacteria in vitro and the reduced adsorption of alveolar bone in the Sprague-Dawley rat model of periodontitis. Altogether, this study develops a novel photosensitizer that can be efficiently absorbed by the periodontal pathogenic bacteria and also provides a potent combination strategy of PDT with antibiotic therapy for clinical periodontitis treatment.