Sirna nanoparticle targeting pd-l1 activates tumor immunity and abrogates pancreatic cancer growth in humanized preclinical model

Authors
Jung, J.Y.Ryu, H.J.Lee, S.-H.Kim, D.-Y.Kim, M.J.Lee, E.J.Ryu, Y.-M.Kim, S.-Y.Kim, K.-P.Choi, E.Y.Ahn, H.J.Chang, S.
Issue Date
2021-10
Publisher
MDPI
Citation
Cells, v.10, no.10
Abstract
Pancreatic cancer is characterized by late detection, frequent drug resistance, and a highly metastatic nature, leading to poor prognosis. Antibody-based immunotherapy showed limited success for pancreatic cancer, partly owing to the low delivery rate of the drug into the tumor. Herein, we describe a poly(lactic-co-glycolic acid;PLGA)-based siRNA nanoparticle targeting PD-L1 (siPD-L1@PLGA). The siPD-L1@PLGA exhibited efficient knockdown of PD-L1 in cancer cells, without affecting the cell viability up to 6 mg/mL. Further, 99.2% of PDAC cells uptake the nanoparticle and successfully blocked the IFN-gamma-mediated PD-L1 induction. Consistently, the siPD-L1@PLGA sensitized cancer cells to antigen-specific immune cells, as exemplified by Ovalbumin-targeting T cells. To evaluate its efficacy in vivo, we adopted a pancreatic PDX model in humanized mice, generated by grafting CD34+ hematopoeitic stem cells onto NSG mice. The siPD-L1@PLGA significantly suppressed pancreatic tumor growth in this model with upregulated IFN-gamma positive CD8 T cells, leading to more apoptotic tumor cells. Multiplex immunofluorescence analysis exhibited comparable immune cell compositions in control and siPD-L1@PLGA-treated tumors. However, we found higher Granzyme B expression in the siPD-L1@PLGA-treated tumors, suggesting higher activity of NK or cytotoxic T cells. Based on these results, we propose the application of siPD-L1@PLGA as an immunotherapeutic agent for pancreatic cancer. ? 2021 by the authors. Licensee MDPI, Basel, Switzerland.
Keywords
4' ,6 diamidino 2 phenylindole; CD34 antigen; CD8 antigen; gamma interferon; glutamine; granzyme B; interleukin 2; lipocortin 5; nanoparticle; ovalbumin; polyvinyl alcohol; programmed death 1 ligand 1; small interfering RNA; animal cell; animal experiment; animal model; animal tissue; apoptosis; Article; cancer growth; CD4+ T lymphocyte; CD8+ T lymphocyte; cell composition; cell viability; cell viability assay; comparative effectiveness; controlled study; cytotoxic T lymphocyte; cytotoxicity; enzyme linked immunospot assay; female; fetal bovine serum; flow cytometry; fluorescence activated cell sorting; fluorescence microscopy; gene expression; gene knockdown; human; human cell; immunocompetent cell; immunofluorescence; immunofluorescence assay; immunohistochemistry; immunological tolerance; immunotherapy; mitochondrial membrane potential; mouse; multispectral imaging; natural killer cell; natural killer cell mediated cytotoxicity; nonhuman; pancreas cancer; photon correlation spectroscopy; protein expression; regulatory T lymphocyte; stem cell; T lymphocyte; tumor growth; tumor immunity; tumor volume; 4' ,6 diamidino 2 phenylindole; CD34 antigen; CD8 antigen; gamma interferon; glutamine; granzyme B; interleukin 2; lipocortin 5; nanoparticle; ovalbumin; polyvinyl alcohol; programmed death 1 ligand 1; small interfering RNA; animal cell; animal experiment; animal model; animal tissue; apoptosis; Article; cancer growth; CD4+ T lymphocyte; CD8+ T lymphocyte; cell composition; cell viability; cell viability assay; comparative effectiveness; controlled study; cytotoxic T lymphocyte; cytotoxicity; enzyme linked immunospot assay; female; fetal bovine serum; flow cytometry; fluorescence activated cell sorting; fluorescence microscopy; gene expression; gene knockdown; human; human cell; immunocompetent cell; immunofluorescence; immunofluorescence assay; immunohistochemistry; immunological tolerance; immunotherapy; mitochondrial membrane potential; mouse; multispectral imaging; natural killer cell; natural killer cell mediated cytotoxicity; nonhuman; pancreas cancer; photon correlation spectroscopy; protein expression; regulatory T lymphocyte; stem cell; T lymphocyte; tumor growth; tumor immunity; tumor volume; Humanized NSG; Immunotherapy; Nanoparticle; Pancreatic cancer; PD-L1; SiRNA
ISSN
2073-4409
URI
https://pubs.kist.re.kr/handle/201004/116300
DOI
10.3390/cells10102734
Appears in Collections:
KIST Article > 2021
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