Plasmid DNA-Based Bioluminescence-Activated System for Photodynamic Therapy in Cancer Treatment.

Abstract

The low depth of tissue penetration by therapeutic light sources severely restricts photodynamic therapy (PDT) in treating deep-seated tumors. Using a luciferase/d-luciferin bioluminescence system to artificially create internal light sources in cells instead of external light sources is an effective means of solving the above problems. However, high-efficiency bioluminescence requires a higher concentration of luciferase in the cell, which poses a considerable challenge to the existing system of enzyme loading, delivery, activity and retention of drugs, and dramatically increases the cost of treatment. We loaded the substrate D-luciferin, and the photosensitizer hypericin into a polyethyleneimine (PEI)-modified nano-calcium phosphate (CaP) to solve this problem. Subsequently, the plasmid DNA containing the luciferase gene was loaded onto it using the high-density positive charge characteristic of PEI from the nanodrug (denoted DHDC). After the DHDC enters the tumor cell, it collapses and releases the plasmid DNA, which uses the intracellular protein synthesis system to continuously and massively express luciferase. Using endogenous ATP, Mg2+ , and O2 in cells, luciferase oxidizes d-luciferin and produces luminescence. The luminescence triggers hypericin excitation to generate ROS and kill cancer cells. This study provides a new strategy for the application of bioluminescence in PDT treatment.