通过定义细胞适宜性的最低标准来提高免疫测定的可靠性

Q3 Medicine ImmunoHorizons Pub Date : 2024-09-01 DOI:10.4049/immunohorizons.2300095
Sabine Ivison, Gabrielle Boucher, Grace Zheng, Rosa V Garcia, Rita Kohen, Alain Bitton, John D Rioux, Megan K Levings
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引用次数: 0

摘要

以人类 PBMC 为基础的检测通常被用作诊断和预后疾病的生物标志物,以及预测和跟踪对生物疗法的反应。然而,基于 PBMC 的生物标志物检测的开发和使用往往受到可重复性差的限制。分析前的细胞处理方法不同,尤其是在使用冷冻细胞时,会使复杂的免疫学检测变得更加复杂。如果 PBMC 的分离和冷冻保存是在采集后数小时之后进行的,那么解冻后存活率的变化就会进一步增加。目前,对于确保基于免疫细胞的检测的完整性和可重复性所需的最低 PBMC 活力或 "适配性",还缺乏基于证据的标准。在这项研究中,我们采用了 "诱导失败 "的方法来检测解冻的人类 PBMC 的适存度对四种基于流式细胞仪的检测方法的影响。我们发现,解冻时基于细胞通透性的活力染色法不能准确量化细胞活力,而代谢活性和早期细胞凋亡标志物的综合测量则能准确量化细胞活力。不同类型和程度的损伤对基于 PBMC 的检测的影响调查显示,只有当细胞活率大于 60-70% 且凋亡阴性时,生物标志物值才不再由细胞活力而不是细胞固有的生物学特性决定。这些数据表明,要想利用低温保存的 PBMC 重现免疫生物标记物的测量结果,就应在检测方案中纳入细胞活力的最低可接受标准。
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Improving Reliability of Immunological Assays by Defining Minimal Criteria for Cell Fitness.

Human PBMC-based assays are often used as biomarkers for the diagnosis and prognosis of disease, as well as for the prediction and tracking of response to biological therapeutics. However, the development and use of PBMC-based biomarker assays is often limited by poor reproducibility. Complex immunological assays can be further complicated by variation in cell handling before analysis, especially when using cryopreserved cells. Variation in postthaw viability is further increased if PBMC isolation and cryopreservation are done more than a few hours after collection. There is currently a lack of evidence-based standards for the minimal PBMC viability or "fitness" required to ensure the integrity and reproducibility of immune cell-based assays. In this study, we use an "induced fail" approach to examine the effect of thawed human PBMC fitness on four flow cytometry-based assays. We found that cell permeability-based viability stains at the time of thawing did not accurately quantify cell fitness, whereas a combined measurement of metabolic activity and early apoptosis markers did. Investigation of the impact of different types and levels of damage on PBMC-based assays revealed that only when cells were >60-70% live and apoptosis negative did biomarker values cease to be determined by cell fitness rather than the inherent biology of the cells. These data show that, to reproducibly measure immunological biomarkers using cryopreserved PBMCs, minimal acceptable standards for cell fitness should be incorporated into the assay protocol.

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CiteScore
3.70
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