Exosomes with IR780 and Lenvatinib loaded on GPC3 single-chain scFv antibodies for targeted hyperthermia and chemotherapy in hepatocellular carcinoma therapy

Exosomes (EXOs) are considered natural nanoparticles which have been widely used as carriers for the treatment and diagnosis of various diseases. However, due to the non-specific uptake, the unmodified EXOs cannot effectively deliver the vector to the target site. In this study, we used pDisplay vector to engineer Glypican-3 (GPC3) single-chain scFv antibody to the exosome surface, and the effect of engineered exosomes on the proliferation and migration of hepatocellular carcinoma (HCC) cells was determined by a series of in vitro experiments as well as in vivo mouse xenograft model and PDX model. Furthermore, we established an improved delivery system by engineering single-chain scFv antibody against GPC3 on the EXO surface for a more efficient HCC targeting. Moreover, the delivery system was loaded with IR780 and Lenvatinib for a combination of thermotherapy and chemotherapy. Our results revealed that the antibody-engineered exosomes enabled rapid imaging of HCC xenograft models post IR780 loading and showed significant anti-tumor photothermal therapy (PTT) effects after irradiation. Since dual loading of IR780 and Lenvatinib in exosomes required only a single injection and had a maximal efficacy against Cancer cells, our findings highlight the clinical application of using GPC3 single-chain scFv antibody-engineered exosomes loaded with IR780 and Lenvartinib to achieve the imaging and the treatment of HCC from the combined effect of IR780-induced PTT and Lenvatinib-induced chemotherapy.

GPC3 single chain antibody; IR780; Lenvartinib; exosomes; hepatocellular carcinoma.