Enhancing photothermal therapy of tumors with image-guided thermal control of gene-expressing bacteria.

Abstract

Purpose: Bacteria-mediated tumor therapy has showed promising potential for cancer therapy. However, the efficacy of bacterial monotherapy treatment which can express and release therapeutic proteins in tumors has been found to be unsatisfactory. To date, synergistic therapy has emerged as a promising approach to achieve stronger therapeutic outcomes compared to bacterial monotherapy. It is a challenge to visualize these tumor-homing bacteria in vivo and guide them to express and release in situ therapeutic proteins. Procedure: We have developed a kind of engineered bacteria (named CGB@ICG) genetically incorporating acoustic reporter proteins and thermo-inducible ClyA expression gene circuit and chemically modified with indocyanine green on the bacterial surface. The presence of acoustic reporter proteins and indocyanine green facilitates the visualization of CGB@ICG via contrast-enhanced ultrasound imaging and optical imaging, making it possible to guide the sound wave or laser to irradiate precisely these bacteria for inducing the expression of ClyA protein via acoustic- or photothermal effects. The expression and secretion of ClyA protein in the tumor, combined with photothermal therapy, greatly enhanced the anti-tumor efficacy of the engineered bacteria and improved their biosafety. Results: We successfully performed multimodal imaging of CGB@ICG in vivo resulting in remoting control the expression of ClyA protein in tumor. In vivo experiments showed that bacteria-mediated therapy combined photothermal therapy exhibited a rapid decrease in tumor volume compared to other groups, while the tumor volume of the combination therapy group continued to decrease and even achieved complete healing. Thus, combination therapy not only reduced the rate of tumor growth but also prevented the proliferation of tumor cells for an extended period. Conclusion: Our study demonstrated that CGB@ICG serves as an efficacious imaging agent and delivery vector to combine engineered bacteria with photothermal therapy, holding great promise for tumor treatment.