Stefan Barisic, Elena Cherkasova, Rosa Nadal, Xin Tian, Long Chen, Angelina Parrizzi, Robert N. Reger, Gina M. Scurti, Michael I. Nishimura, Richard W. Childs
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引用次数: 0
摘要
在癌症患者体内进行基因修饰 T 细胞的采用性转移扩增与抗肿瘤活性和 T 细胞介导的毒性有关。与 qPCR 或流式细胞术相比,数字 PCR 的发展提高了量化被收养输注 T 细胞状态的准确性。在这里,我们开发并评估了基于纳米板的数字 PCR(ndPCR)的可行性和性能,以量化使用识别人类内源性逆转录病毒 E 型(HERV-E)抗原的 T 细胞受体(TCR)设计的被收养输注 T 细胞。对转移性肾癌患者输注 HERV-E TCR 转导 T 细胞后采集的血液样本进行分析,确定 ndPCR 的检测限为 0.3 个转基因拷贝/μL 反应液。ndPCR的定量下限是每10,000个PBMC中一个工程T细胞,比qPCR和流式细胞术都高出1个对数。通过分析从多名患者采集的血液样本,证实了测试间和测试后的高度可靠性。总之,我们证明了 ndPCR 在采用细胞疗法中检测和监测 TCR 工程 T 细胞命运的可行性。
Quantification of circulating TCR-engineered T cells targeting a human endogenous retrovirus post-adoptive transfer using nanoplate digital PCR
expansion of genetically modified T cells in cancer patients following adoptive transfer has been linked to both anti-tumor activity and T cell-mediated toxicities. The development of digital PCR has improved the accuracy in quantifying the status of adoptively infused T cells compared to qPCR or flow cytometry. Here, we developed and evaluated the feasibility and performance of nanoplate-based digital PCR (ndPCR) to quantify adoptively infused T cells engineered with a T cell receptor (TCR) that recognizes a human endogenous retrovirus type E (HERV-E) antigen. Analysis of blood samples collected from patients with metastatic kidney cancer following the infusion of HERV-E TCR-transduced T cells established the limit of detection of ndPCR to be 0.3 transgene copies/μL of reaction. The lower limit of quantification for ndPCR was one engineered T cell per 10,000 PBMCs, which outperformed both qPCR and flow cytometry by 1 log. High inter-test and test-retest reliability was confirmed by analyzing blood samples collected from multiple patients. In conclusion, we demonstrated the feasibility of ndPCR for detecting and monitoring the fate of TCR-engineered T cells in adoptive cell therapy.
期刊介绍:
The aim of Molecular Therapy—Methods & Clinical Development is to build upon the success of Molecular Therapy in publishing important peer-reviewed methods and procedures, as well as translational advances in the broad array of fields under the molecular therapy umbrella.
Topics of particular interest within the journal''s scope include:
Gene vector engineering and production,
Methods for targeted genome editing and engineering,
Methods and technology development for cell reprogramming and directed differentiation of pluripotent cells,
Methods for gene and cell vector delivery,
Development of biomaterials and nanoparticles for applications in gene and cell therapy and regenerative medicine,
Analysis of gene and cell vector biodistribution and tracking,
Pharmacology/toxicology studies of new and next-generation vectors,
Methods for cell isolation, engineering, culture, expansion, and transplantation,
Cell processing, storage, and banking for therapeutic application,
Preclinical and QC/QA assay development,
Translational and clinical scale-up and Good Manufacturing procedures and process development,
Clinical protocol development,
Computational and bioinformatic methods for analysis, modeling, or visualization of biological data,
Negotiating the regulatory approval process and obtaining such approval for clinical trials.