醫學研究

恭喜 翁順隆院長 及 陳家弘研究員 之研究成果發表於國際頂尖學術期刊 Journal of Experimental & Clinical Cancer Research

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發表期刊:

Journal of Experimental & Clinical Cancer Research
(IF=12.658, 24/245 ONCOLOGY)

 

研究題目:

A flexible liposomal polymer complex as a platform of specific and regulable immune regulation for individual cancer immunotherapy

 

作者列表:

Chia-Hung Chen, Tzu-Han Weng, Hsiao-Hsuan Huang, Ling-Ya Huang, Kai-Yao Huang, Pin-Rong Chen, Kuang-Yu Yeh, Chi-Ting Huang, Yu-Tzu Chien, Po-Ya Chuang, Yu-Ling Lin, Nu-Man Tsai, Shih-Jen Liu, Yu-Cheng Su, Shun-Long Weng*, Kuang-Wen Liao*

 

論文摘要:

Background: The applicability and therapeutic efficacy of specific personalized immunotherapy for cancer patients is limited by the genetic diversity of the host or the tumor. Side-effects such as immune-related adverse events (IRAEs) derived from the administration of immunotherapy have also been observed. Therefore, regulatory immunotherapy is required for cancer patients and should be developed.

 

Methods: The cationic lipo-PEG-PEI complex (LPPC) can stably and irreplaceably adsorb various proteins on its surface without covalent linkage, and the bound proteins maintain their original functions. In this study, LPPC was developed as an immunoregulatory platform for personalized immunotherapy for tumors to address the barriers related to the heterogenetic characteristics of MHC molecules or tumor associated antigens (TAAs) in the patient population. Here, the immune-suppressive and highly metastatic melanoma, B16F10 cells were used to examine the effects of this platform. Adsorption of anti-CD3 antibodies, HLA-A2/peptide, or dendritic cells' membrane proteins (MP) could flexibly provide pan-T-cell responses, specific Th1 responses, or specific Th1 and Th2 responses, depending on the host needs. Furthermore, with regulatory antibodies, the immuno-LPPC complex properly mediated immune responses by adsorbing positive or negative antibodies, such as anti-CD28 or anti-CTLA4 antibodies.

 

Results: The results clearly showed that treatment with LPPC/MP/CD28 complexes activated specific Th1 and Th2 responses, including cytokine release, CTL and prevented T-cell apoptosis. Moreover, LPPC/MP/CD28 complexes could eliminate metastatic B16F10 melanoma cells in the lung more efficiently than LPPC/MP. Interestingly, the melanoma resistance of mice treated with LPPC/MP/CD28 complexes would be reversed to susceptible after administration with LPPC/MP/CTLA4 complexes. NGS data revealed that LPPC/MP/CD28 complexes could enhance the gene expression of cytokine and chemokine pathways to strengthen immune activation than LPPC/MP, and that LPPC/MP/CTLA4 could abolish the LPPC/MP complex-mediated gene expression back to un-treatment.