Photo-responsive polymeric micelles for the light-triggered release of curcumin targeting antimicrobial activity

Nanocarriers have been successfully used to solubilize, deliver, and increase the bioavailability of curcumin (CUR), but slow CUR release rates hinder its use as a topical photosensitizer in antimicrobial photodynamic therapy. A photo-responsive polymer (PRP) was designed for the light-triggered release of CUR with an effective light activation-dependent antimicrobial response. The characterization of the PRP was compared with non-responsive micelles comprising Pluronics (TM) P123 and F127. According to the findings, the PRP formed photo-responsive micelles in the nanometric scale (< 100 nm) with a lower critical micelle concentration (3.74 x 10(-4) M-1, 5.8 x 10(-4) M-1, and 7.2 x 10(-6) M-1 for PRP, F127, P123, respectively, at 25 degrees C) and higher entrapment efficiency of CUR (88.7, 77.2, and 72.3% for PRP, F127, and P123 micelles, respectively) than the pluronics evaluated. The PRP provided enhanced protection of CUR compared to P123 micelles, as demonstrated in fluorescence quenching studies. The light-triggered release of CUR from PRP occurred with UV light irradiation (at 355 nm and 25 mW cm(-2)) and a cumulative release of 88.34% of CUR within 1 h compared to 80% from pluronics after 36 h. In vitro studies showed that CUR-loaded PRP was non-toxic to mammal cell, showed inactivation of the pathogenic microorganisms Candida albicans, Pseudomonas aeruginosa, and methicillin-resistant Staphylococcus aureus, and decreased biofilm biomass when associated with blue light (455 nm, 33.84 J/cm(2)). The findings show that the CUR-loaded PRP micelle is a viable option for antimicrobial activity.

Automated summary

A photo-responsive polymer was designed for the light-triggered release of curcumin, providing an effective antimicrobial response. Compared to non-responsive Pluronics P123 and F127, the polymer formed nanoscale photo-responsive micelles with lower critical micelle concentration and higher curcumin entrapment efficiency. The polymer also offered better protection for curcumin compared to P123 micelles, and showed a higher release rate with UV light irradiation.