抗原特异性淋巴细胞的四聚体和五聚体检测:在临床试验中的实施

C. Xue, Weiguo Zhong, Yeji Cho, J. Cuomo, C. Swenson, T. M. Closkey
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引用次数: 0

摘要

抑制肿瘤免疫治疗中T细胞上PD1的成功引发了人们对研究治疗性抗体来改变适应性免疫系统的强烈兴趣。随着对新抗原、癌基因和自身抗原的了解迅速增加,寻找抗原特异性淋巴细胞以获得更好的治疗效果也在增加。四聚体或五聚体测定是免疫表型和枚举抗原特异性淋巴细胞的必要工具。这些检测提供了一种强大的技术,能够监测免疫状态,使用外周全血作为基质,而不是侵入性组织活检。然而,这种检测方法在临床研究中有许多障碍需要克服。在过去的几年里,我们已经开发和验证了四聚体和五聚体的测定,既有成功的,也有失败的。罕见事件和准确性:临床研究需要可靠的可重复性和高精度。作为判断流式细胞术生物标志物检测可接受性的标准,大多数检测结果之间的CV值设置为20-30%。然而,如果生物标志物在不到1%的目标人群中表达,则该标准可能失败。四聚体分析需要更严格的精确分析。这些细胞在数以百万计的造血细胞中是罕见的。精度要求可能在百分之一或更低。该试验的一个成功标志是,在为期一年的临床试验过程中,一些生物标志物保持在稳定的水平。增加信号和减少背景噪声:然而,与基于单一标记的抗体不同,四聚体和五聚体具有高度敏感性。因此,增加信号和减少背景噪声是至关重要的。7AAD(去除死细胞)和转储通道(去除非目标群体)的结合显著提高了检测的精度。数据分析和管理:使用新的和强大的流式细胞仪,单个样品可以用多个表面标记物以及荧光四聚体或五聚体进行标记。当标记200万到500万个单元格时,文件大小可以达到兆字节。这就造成了数据分析和分析软件的瓶颈,特别是在有多个管的检测面板中。解决方案是将非必需细胞数量(包括高侧散射(SSC)数量)减少一半,并从细胞仪中重新导出数据。控制设置:这些检测中最具挑战性的部分是对试剂和细胞进行严格的控制。定制试剂和具有HLA-A标记的特征特异性外周血细胞(PBMC)的来源对于开发和验证这些复杂的分析是必要的。总之,针对抗原特异性淋巴细胞的四聚体和五聚体检测可用于癌症免疫治疗研究、癌症疫苗开发以及其他自身免疫性疾病(如1型糖尿病)的研究。引用格式:薛成森,钟卫国,赵叶吉,Joanne Cuomo, Christina D. Swenson, Thomas W. Mc Closkey。抗原特异性淋巴细胞的四聚体和五聚体检测:在临床试验中的实施[摘要]。见:美国癌症研究协会2021年年会论文集;2021年4月10日至15日和5月17日至21日。费城(PA): AACR;癌症杂志,2021;81(13 -增刊):摘要第512期。
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Abstract 512: Tetramer and pentamer assays for antigen-specific lymphocytes: Implementation in clinical trials
The success of inhibiting PD1 on T cells for cancer immunotherapy initiated strong interest in studying therapeutic antibodies to alter the adaptive immune system. As the knowledge of neoantigens, oncogenes, and autoantigens is rapidly accelerating, the search for antigen-specific lymphocytes for better treatment outcomes is increasing. A tetramer or pentamer assay is an essential tool to immunophenotype and enumerate antigen-specific lymphocytes. These assays offer a powerful technique able to monitor immune status, using peripheral whole blood as a matrix, in contrast to invasive tissue biopsies. However, the assays have a number of obstacles to overcome in clinical research. Over several years, we have developed and validated tetramer and pentamer assays with both successes and failures. Rare events and precision: Clinical studies require robust reproducibility and high precision. As a standard in judging the acceptability of a flow cytometric biomarker test, the majority of tests are set up to have 20-30% CV between results. However, if a biomarker is expressed in less than 1% of a target population, the criteria can fail. The tetramer assay requires precision analyses that are even more stringent. These cells are rare events among millions of hematopoietic cells. The precision requirements may be at one hundredth percent or lower. A successful sign for the assay is that over a one-year period during the course of the clinical trial, some biomarkers remain at a stable level. Increasing signals and reduction of background noise: Unlike single marker based antibodies, however, tetramers and pentamers are highly sensitive. It is critical, therefore, to increase signals and reduce background noise. A combination of 7AAD (to remove dead cells) and incorporation of a dump channel (to remove non-target populations) significantly improves the precision of the assays. Data analyses and management: With new and powerful flow cytometers, a single sample can be labelled with multiple surface markers along with fluorescent tetramer or pentamers. The file size can reach megabytes when two to five million cells are tagged. This creates a bottleneck for data analysis and analytical software, especially in an assay with a panel of multiple tubes. The solution is to cut non-essential cell numbers including those with high side-scatter (SSC) numbers in half and to re-export data from cytometers. Controls setup: The most challenging part of these assays is to have strict controls, both for reagents and cells. Customized reagents and a source for characterized specific peripheral blood cells (PBMC) with HLA-A markers are necessary for developing and validating these complex assays. In conclusion, tetramer and pentamer assays targeting antigen-specific lymphocytes are deliverables for cancer immunotherapy research, cancer vaccine development and for use in studying other autoimmune diseases, such as type 1 diabetes. Citation Format: Chengsen Xue, Weiguo Zhong, Yeji Cho, Joanne Cuomo, Christina D. Swenson, Thomas W. Mc Closkey. Tetramer and pentamer assays for antigen-specific lymphocytes: Implementation in clinical trials [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 512.
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