γδ T cells cultured with artificial antigen-presenting cells and IL-2 show long-term proliferation and enhanced effector functions compared with γδ T cells cultured with only IL-2 after stimulation with zoledronic acid
| Autor: | Hyun-Il Cho, Yunkyung Lee, Tai-Gyu Kim, Gaeun Hur, Hee-Je Kim, Haeyoun Choi, Sang-Eun Lee, Hyun-Jung Sohn, Byung Sik Cho |
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| Rok vydání: | 2021 |
| Předmět: |
Cancer Research
T-Lymphocytes medicine.medical_treatment Immunology Antigen-Presenting Cells Zoledronic Acid Artificial antigen presenting cells medicine Humans Immunology and Allergy IL-2 receptor Cells Cultured Genetics (clinical) Cell Proliferation CD86 Transplantation CD40 biology Chemistry Receptors Antigen T-Cell gamma-delta U937 Cells Cell Biology Molecular biology Cytokine medicine.anatomical_structure Oncology Leukocytes Mononuclear biology.protein Interleukin-2 Bone marrow CD80 K562 cells |
| Zdroj: | Cytotherapy. 23:908-917 |
| ISSN: | 1465-3249 |
| Popis: | Background aims Immunotherapeutic approaches using γδ T cells have emerged as the function of γδ T cells in tumor surveillance and clearance has been discovered. In vitro expansion methods of γ9δ2 T cells have been based on phosphoantigens and cytokines, but expansion methods using feeder cells to generate larger numbers of γδ T cells have also been studied recently. However, there are no studies that directly compare γδ T cells cultured with phosphoantigens with those cultured with feeder cells. Therefore, this study aimed to compare the expansion, characteristics and effector functions of γδ T cells stimulated with K562-based artificial antigen-presenting cells (aAPCs) (aAPC-γδ T cells) and γδ T cells stimulated with only zoledronic acid (ZA) (ZA-γδ T cells). Methods Peripheral blood mononuclear cells were stimulated with ZA for 7 days, and aAPC-γδ T cells were stimulated weekly with K562-based aAPCs expressing CD32, CD80, CD83, 4-1BBL, CD40L and CD70, whereas ZA-γδ T cells were stimulated with only IL-2. Cultured γδ T cells were analyzed by flow cytometry for the expression of co-stimulatory molecules, activating receptors and checkpoint inhibitors. Differentially expressed gene (DEG) analysis was also performed to determine the difference in gene expression between aAPC-γδ T cells and ZA-γδ T cells. In vitro cytotoxicity assay was performed with calcein AM release assay, and in vivo anti-tumor effect was compared using a U937 xenograft model. Results Fold expansion on day 21 was 690.7 ± 413.1 for ZA-γδ T cells and 1415.2 ± 1016.8 for aAPC- γδ T cells. Moreover, aAPC-γδ T cells showed continuous growth, whereas ZA-γδ T cells showed a decline in growth after day 21. The T-cell receptor Vγ9+δ2+ percentages (mean ± standard deviation) on day 21 were 90.0 ± 2.7% and 87.0 ± 4.5% for ZA-γδ T cells and aAPC-γδ T cells, respectively. CD25 and CD86 expression was significantly higher in aAPC-γδ T cells. In DEG analysis, aAPC-γδ T cells and ZA-γδ T cells formed distinct clusters, and aAPC-γδ T cells showed upregulation of genes associated with metabolism and cytokine pathways. In vitro cytotoxicity revealed superior anti-tumor effects of aAPC-γδ T cells compared with ZA-γδ T cells on Daudi, Raji and U937 cell lines. In addition, in the U937 xenograft model, aAPC-γδ T-cell treatment increased survival, and a higher frequency of aAPC-γδ T cells was shown in bone marrow compared with ZA-γδ T cells. Conclusions Overall, this study demonstrates that aAPC-γδ T cells show long-term proliferation, enhanced activation and anti-tumor effects compared with ZA-γδ T cells and provides a basis for using aAPC-γδ T cells in further studies, including clinical applications and genetic engineering of γδ T cells. |
| Databáze: | OpenAIRE |
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