Characterization of CAR T Cells Manufactured Using Genetically Engineered Artificial Antigen Presenting Cells.

IF 1.7 4区生物学 Q4 CELL BIOLOGY

Cell Journal Pub Date : 2023-10-09 DOI:10.22074/cellj.2023.2001712.1304

Ali Sayadmanesh, Mohamad Azadbakht, Kheirollah Yari, Ali Abedelahi, Hajar Shafaei, Dariush Shanehbandi, Behzad Baradaran, Mohsen Basiri

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引用次数: 0

Abstract

Objective: Chimeric antigen receptor (CAR) T cell therapy has recently emerged as a promising approach for the treatment of different types of cancer. Improving CAR T cell manufacturing in terms of costs and product quality is an important concern for expanding the accessibility of this therapy. One proposed strategy for improving T cell expansion is to use genetically engineered artificial antigen presenting cells (aAPC) expressing a membrane-bound anti-CD3 for T cell activation. The aim of this study was to characterize CAR T cells generated using this aAPC-mediated approach in terms of expansion efficiency, immunophenotype, and cytotoxicity.

Materials and methods: In this experimental study, we generated an aAPC line by engineering K562 cells to express a membrane-bound anti-CD3 (mOKT3). T cell activation was performed by co-culturing PBMCs with either mitomycin C-treated aAPCs or surface-immobilized anti-CD3 and anti-CD28 antibodies. Untransduced and CD19-CARtransduced T cells were characterized in terms of expansion, activation markers, interferon gamma (IFN-γ) secretion, CD4/CD8 ratio, memory phenotype, and exhaustion markers. Cytotoxicity of CD19-CAR T cells generated by aAPCs and antibodies were also investigated using a bioluminescence-based co-culture assay.

Results: Our findings showed that the engineered aAPC line has the potential to expand CAR T cells similar to that using the antibody-based method. Although activation with aAPCs leads to a higher ratio of CD8+ and effector memory T cells in the final product, we did not observe a significant difference in IFN-γ secretion, cytotoxic activity or exhaustion between CAR T cells generated with aAPC or antibodies.

Conclusion: Our results show that despite the differences in the immunophenotypes of aAPC and antibody-based CAR T cells, both methods can be used to manufacture potent CAR T cells. These findings are instrumental for the improvement of the CAR T cell manufacturing process and future applications of aAPC-mediated expansion of CAR T cells.

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使用基因工程人工抗原呈递细胞制造的CAR T细胞的表征。

目的：嵌合抗原受体（CAR）T细胞治疗已成为治疗不同类型癌症的一种有前景的方法。在成本和产品质量方面提高CAR T细胞的制造是扩大这种疗法可及性的一个重要问题。一种改进T细胞扩增的提议策略是使用表达膜结合抗CD3的基因工程人工抗原呈递细胞（aAPC）来激活T细胞。本研究的目的是从扩增效率、免疫表型和细胞毒性方面表征使用这种APC介导的方法产生的CAR T细胞。材料和方法：在本实验研究中，我们通过工程K562细胞表达膜结合抗CD3（mOKT3）来产生aAPC系。通过将PBMC与丝裂霉素C处理的aAPC或表面固定的抗CD3和抗CD28抗体共培养来进行T细胞活化。未转导和CD19 CAR转导的T细胞在扩增、活化标记物、干扰素γ（IFN-γ）分泌、CD4/CD8比率、记忆表型和耗竭标记物方面进行了表征。还使用基于生物发光的共培养测定法研究了由aAPC和抗体产生的CD19-CAR T细胞的细胞毒性。结果：我们的发现表明，工程化的aAPC系具有扩增CAR T细胞的潜力，类似于使用基于抗体的方法。尽管用aAPC激活导致最终产物中CD8+和效应记忆T细胞的比例更高，但我们没有观察到用aAPC或抗体产生的CAR T细胞在IFN-γ分泌、细胞毒性活性或耗竭方面的显著差异。结论：我们的结果表明，尽管aAPC和基于抗体的CAR T细胞的免疫表型存在差异，但这两种方法都可以用于制造强效的CAR T细胞。这些发现有助于改善CAR T细胞的制造过程和APC介导的CAR T淋巴细胞扩增的未来应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cell Journal CELL BIOLOGY-

CiteScore

3.40

自引率

5.00%

发文量

审稿时长

12 months

期刊介绍： The “Cell Journal (Yakhteh)“, formerly published as “Yakhteh Medical Journal”, is a quarterly English publication of Royan Institute. This journal focuses on topics relevant to cellular and molecular scientific areas, besides other related fields. The Cell J has been certified by Ministry of Culture and Islamic Guidance in 1999 and was accredited as a scientific and research journal by HBI (Health and Biomedical Information) Journal Accreditation Commission in 2000 which is an open access journal.