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Search Thermo Fisher Scientific
Immunophenotyping is the analysis of heterogeneous populations of cells within human blood for the purpose of identifying the presence and proportions of various cell populations. This is usually accomplished by using antibodies to detect specific antigens expressed by these cells. These antigens are usually functional membrane proteins involved in cell communication, adhesion or metabolism. Flow cytometry is the method of choice for identifying cells within complex populations, as it allows for multi parameter analysis of thousands to millions of cells in a short time. Applications of this technology are used both in basic research and in clinical laboratories.
The Attune NxT Flow Cytometer is available with up to 4 lasers and 16 detection channels. All versions show excellent separation of cell populations into subsets for immunophenotyping. There is strong signal separation for more data clarity, and up to 14-color detection can be performed with the automated compensation module. This application note describes the use of the Attune NxT Flow Cytometer with 4 lasers and 13-color immunophenotyping analysis of stained human whole blood using a stain/lyse protocol. Lymphocyte, monocyte and granulocyte populations were distinguished with forward scatter (FSC) and side scatter (SSC); and monocyte, T cell, B cell and NK populations were identified using fluorescent antibodies against surface antigens specific for the different immunological populations.
Red blood cells were lysed from human whole blood, and white blood cells (WBCs) were surface stained with the antibodies listed above. The following protocol was used for sample preparation and analysis on the Attune NxT Flow Cytometer. Please see the user guide for detailed instructions on setting up an experiment and running samples.
See table for bandpass filters, lasers and channels used on the Attune NxT cytometer to acquire the samples. Antigen ranking is also included, where 1 is high expression, 2 is medium expression and 3 is low expression of the antigen.
Laser | Excitation (nm) | Emission filter (nm) | Channel | Fluorophore | Marker | Cat. No. | Antigen ranking |
---|---|---|---|---|---|---|---|
Violet | 405 | 440/50 | VL-1 | Pacific Blue | CD8 | MHCD0828TR | 1 |
512/25 | VL-2 | Pacific Green | CD19 | C11210 | 2 | ||
603/48 | VL-3 | Pacific Orange | CD45 | MHCD4530TR | 1 | ||
710/50 | VL-4 | Qdot 705 | CD14 | Q22137 | 1 | ||
Blue | 488 | 530/30 | BL-1 | FITC | CD45RA | MHCD45RA01 | 1 |
590/40 | BL-2 | Propidium Iodide | NA† | P1304MP | 1 | ||
695/40 | BL-3 | PerCP-Cy5.5 | CD4 | A15858 | 1 | ||
Yellow | 561 | 585/16 | YL-1 | PE | CD56 | MHCD5604-4 | 3 |
620/15 | YL-2 | ||||||
695/40 | YL-3 | PE-Cy5 | CD33 | A16215 | 2 | ||
780/60 | YL-4 | PE-Cy7 | HLA-DR | A18558 | 2 | ||
Red | 637 | 670/14 | RL-1 | APC | CD25 | A18616 | 3 |
720/3 | RL-2 | Alexa Fluor 700 | CD3 | CD0329 | 1 | ||
780/60 | RL-3 | APC-Alexa Fluor 750 | CD62L | MHCD62L27 | 2 | ||
†NA = not applicable |
Dead cells were excluded from the analysis by gating on live cells in a dot plot (Figure 1A). CD45-positive cells were gated on to select the leukocyte population from the lysed whole blood (Figure 1B). Lymphocytes and monocytes were gated based on forward and side scatter profiles (Figure 1C). Monocytes are found above lymphocytes based on scatter profiles and express both CD14 and CD33 (Figure 1D). Within the lymphocyte gate T cells can be isolated based on their expression of CD3 (Figure 1F) and further subdivided into CD4 (T helper cells) and CD8 (Cytotoxic T cells) subpopulations (Figure 1G). B cells can be further characterized by HLA-DR and CD45RA expression (Figure 1E). In addition, regulatory T cells express CD4 and CD25 (Figure 1J). CD62L identifies naïve (TN) CD4 and CD8 T cells, whereas HLA-DR is expressed by activated T cells (TA) (Figure 1H and Figure 1K). NK cells can be identified as they lack B cell (CD19) and T cell (CD3) markers and express CD56 (Figure 1I).
The Attune NxT Flow Cytometer with 4 lasers and 14 colors shows excellent cell population resolution for 13-color human lymphocyte immunophenotyping experiments on lysed human whole blood. Designing multicolor panels is greatly improved with choices of reagents for 4 spatially separated lasers and 14 color choices.