Biogenic Hybrid Nanosheets Activated Photothermal Therapy and Promoted Anti-PD-L1 Efficacy for Synergetic Antitumor Strategy

摘要

Bacteria show promise for use in the field of combination cancer therapy because of their abilities to accumulate in tumors and their roles as natural immunologic adjuvants. However, the huge size of bacteria decreases their chances of being delivered into tumor cells. Moreover, their toxins may cause systemic toxicity in living organisms. Here, we proposed a method to in situ synthesize Au nanoparticles on the surface of Escherichia coli (E. coli), followed by sonication to acquire Au nanoparticles loaded membrane nanosheets (AuMNs) for use in photothermal and combination cancer therapy. Compared to E. coli-loaded Au nanoparticles (E. coli@Au), the small size of membrane nanosheets can be successfully delivered into tumor cells. In addition, the enrichment of AuMNs in tumor site is significantly enhanced via EPR effect, facilitating to activate photothermal conversion under 808 nm laser. Besides, the function of bacteria as natural immunologic adjuvants to promote anti-PD-L1 efficacy is still retained in AuMNs, while the inflammation and damage to viscera caused by AuMNs were milder than E. coli@Au. This study aims to decrease the systemic toxicity of bacteria and promote anti-PD-L1 efficacy in bacteria-mediated combination therapy, so as to open up a new avenue for drug delivery via natural processes.