한빛사논문
Minhee Kim a, Jong Sam Lee a, Wooyeon Kim a, Jong Hun Lee b, Bong-Hyun Jun a, Keun-Sik Kim c, Dong-Eun Kim a,*
a Department of Bioscience and Biotechnology, Konkuk University, Seoul 05029, Republic of Korea b Department of Food Science and Biotechnology, College of BioNano Technology, Gachon University, Seongnam 13120, Republic of Korea c Department of Biomedical Laboratory Science, Konyang University, Daejeon 35365, Republic of Korea
*Corresponding author.
Abstract
Cancer cells have various immune evasion mechanisms that resist the immune cells by reprogramming the tumor microenvironment (TME), such as programmed death-ligand 1 (PD-L1) and indoleamine 2,3-dioxygenase-1 (IDO1) overexpression. One of the approaches to restore antitumor immune response by T-cells is through induction of immunogenic cell death (ICD). Thus, drug carrier containing IDO1 siRNA and ICD inducer would be effective anticancer regimen to modulate the immunosuppressive TME by reversing the IDO1-mediated immunosuppression in a synergistic combination with ICD induction. However, numerous nanocarrier platforms for co-delivery of multiple drugs mostly depend on the enhanced permeation and retention (EPR), which is insufficient to achieve selectivity in tumor sites harboring various types of cells. We designed a targeted drug delivery system using nano-sized liposomes functionalized with anti-CD44 and anti-PD-L1 DNA aptamers, which target breast cancer cells and inhibit PD-1/PD-L1 interaction between cancer cells and T-cells. To reverse immunosuppressive TME and reactivate immune response, cancer-targeting nano-liposomes were prepared to contain immunogenic cell death inducer (Doxorubicin, DOX) and IDO1 siRNA, namely Aptm[DOX/IDO1]. The Aptm[DOX/IDO1] specifically delivered the loaded DOX and IDO1 siRNA into target breast cancer cells through aptamer-mediated endocytosis. Cancer-targeted DOX/IDO1 siRNA delivery enhanced ICD and suppressed IDO1 expression with significantly high toxicity in cancer cells. We demonstrated that Aptm[DOX/IDO1] could achieve synergistic antitumor effects by facilitating ICD response and simultaneous reversal of the immunosuppressive TME with IDO1 knockdown in the subcutaneous breast cancer model mice, thus reducing tumor size. These antitumor effects were exerted with intratumoral infiltration of CD8+ cytotoxic T lymphocyte as well as attenuation of regulatory T-cell recruitment in the tumor sites. We further proved that our Aptm[DOX/IDO1] strategy significantly reduced tumor metastasis in tumor-xenograft mice through a synergistic combination of cancer cell-targeted ICD induction and reversal of the IDO1-mediated immunosuppressive TME. Our nanocarrier platform based on cationic liposomes containing DOX and IDO1 siRNA, which are conjugated with two DNA aptamers targeting the cancer cell surface, accomplished synergistic chemoimmunotherapy through tumor-specific immune modulation into immune-favorable TME in vivo.
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