Current methods for the determination of cell-mediated cytotoxic activity in blood samples usually isolate peripheral blood mononuclear cells by density gradient centrifugation or alternatively use erythrocyte lysis. Both centrifugation and red cell lysis can cause cellular depletion and cell dysfunction, resulting in erroneous measurements. To address limitations of current assays, we developed an improved strategy to determine cellular cytotoxicity using flow cytometry. Viable nucleic acid stains are used to identify live nucleated cells and discriminate them from non-nucleated erythrocytes, platelets, and debris while avoiding lysing and washing steps to maintain cell functionality. To detect target cells, we have used two different labeling approaches. In the first approach, EGFP-labeled K562 human chronic myelogenous leukemia cells provide a "ready-to-use" target without the need of additional for labeling or staining. For the second approach, we perform parallel cytotoxicity assays in the presence of wild-type K562 cells previously loaded with a fluorescent dye that has spectral properties similar to those of EGFP. Given the importance of cytotoxic assays and the deleterious effects of current sample preparation methods, the aim of this study was to adapt this "untouched cells" flow cytometry method to study cytotoxic activity using unlysed whole blood samples and fluorescent target cells. © 2021 Wiley Periodicals LLC. Basic Protocol 1: Sample preparation for cell-mediated cytotoxic activity determination in unlysed whole blood Basic Protocol 2: Protocol preparation, sample acquisition, and gating strategy for flow cytometric identification of cell-mediated cytotoxic activity using unlysed whole blood samples Support Protocol 1: Optimization of the performance of target cell labeling approaches Support Protocol 2: Assessment of the linearity and reproducibility of cytotoxicity assays.
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