SP94 engineered erythrocyte membrane enhanced the targeted delivery of biomimetic nanosuspension with IDO immunotherapy and chemotherapy in liver cancer

The efficient eradication of tumor cells remains a critical challenge in the realm of liver cancer therapies. The combination of chemotherapy and immunotherapy holds more significant potential for improving treatment efficacy. However, the effectiveness of immunotherapy is mainly impeded by the high activity of indoleamine 2,3-dioxygenase (IDO), which creates an immunosuppressive tumor microenvironment via robust proliferation of immunosuppressive T regulatory cells (Tregs) and inhibition of cytotoxic T lymphocytes (CTLs). Herein, we developed SR-ATO-ASIV@NS, a liver cancer-targeting peptide (SP94) modified RBCM-coated biomimetic nanosuspension. This innovative formulation incorporates the chemotherapeutic agent arsenic trioxide (ATO) and the immunomodulator astragaloside IV (AS-IV) as IDO inhibitor for the combined chemoimmunotherapy of liver cancer. The SR-ATO-ASIV@NS increased the solubility of both ATO and AS-IV and displayed excellent stability and exhibited high drug-loading efficiency, rendering it suitable for efficient dual drug delivery. Furthermore, this biomimetic nanosuspension efficiently evaded immune response and showed specific uptake in liver cancer cells via SP94 receptor-mediated endocytosis. The remarkable pharmacokinetic profile, characterized by prolonged blood circulation, enhanced the in vivo anti-tumor efficacy in H22 tumor bearing mice through the synergistic action of the dual drugs. On one hand, the released ATO resulted in excessive reactive oxygen species (ROS) generation, which stimulated the induction of apoptosis pathways via Bax/Bcl-2 and caspase mechanism. While on the other hand, AS-IV effectively blocked the IDO activity and hinders the production of Tregs within the tumor microenvironment. Consequently, the reduced Tregs population fosters the proliferation of CTLs, alleviating ITM and intensifying the immunotherapeutic response for the efficient killing of cancer cells. Additionally, the successful inhibition of liver cancer metastasis to the lungs and robust increase in T memory cells further boosted the anti-tumor therapeutic efficacy of SR-ATO-ASIV@NS. In summary, SR-ATO-ASIV@NS represents a novel and scientifically sophisticated strategy in targeted biomimetic nanotherapeutics. This approach not only enhances site-specific drug delivery but also showcases promising potential for advancing the field of combined chemoimmunotherapy for liver cancer.