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A deeper dive into the tumor-infiltrating T Cell immunophenotype

1 August 2024

Author: David Draper, PhD | Associate Director, Scientific Development
Date: August 2019

In this Tech Spotlight, we demonstrate the latter capability by presenting data generated using the new Expanded CompT™ panel, a 16-color panel that takes flow analysis of T cell activation and differentiation to a level above any other panel in the Labcorp service portfolio.

Flow cytometry using large antibody panels has the advantage of examining a greater number of cell subsets. This capability is particularly important when a comprehensive data set is required, but limited tumor material is available for analysis. Moreover, panels with a large number of antibodies can also be used to enable deep immunophenotypic insight into a few subsets, or an even deeper analysis into a single subset. In this Tech Spotlight, we demonstrate the latter capability by presenting data generated using the new Expanded CompT™ panel, a 16-color panel that takes flow analysis of T cell activation and differentiation to a level above any other panel in the service portfolio. 

The Expanded CompT™ panel builds upon the CompT™ panel, our most popular standard panel to examine CD4+ and CD8+ T cells. This improved panel adds effector and memory T cell markers, plus four additional markers for analysis of T cell activation and exhaustion. Table 1 describes the components of the Expanded CompT™ panel, and using untreated murine MC38 colon adenocarcinomas, Figure 1 illustrates its gating and analysis strategy.

Table 1: Expanded CompT™ Panel Antibodies and Description of Their Utility

Expanded CompT™ Panel Gating Strategy

As with all of our T cell panels, analysis begins with dead cell exclusion and subsequent CD45+ immune cell delineation to gate on CD3+ T cells (not shown). Figure 1A displays the downstream endpoints of CD4+ and CD8+ T cell analysis that are shared between the CompT™ and Expanded CompT™ panels. These include CD69 and PD-1, which become upregulated upon T cell activation. Their expression has been correlated with the exhausted T cell phenotype.[1] Another shared endpoint is CD8+ T cell proliferation, provided by using Ki-67 expression as a surrogate marker. Finally, CD4+ T cells are examined to quantify helper T cells and regulatory T cells (Tregs). Figure 1B and 1C illustrate the added endpoints used to expand upon the CompT™ panel, which are further described below.

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Fig. 1: Analysis of T cells using the Expanded CompT™ panel. Naïve MC38 tumors were harvested from C57BL/6 mice. (A) CD4+ helper, CD8+ T cell, and Treg quantitation, including measurements of proliferation (Ki-67 analysis) and CD69/PD-1 marker expression. (B) Effector/memory CD8+ T cell analysis to quantify naïve, Teff, Tem, and Tcm subsets. (C) Expanded analysis of T cell activation/exhaustion markers including granzyme B. Red peaks represent target-stained cells. Blue peaks represent the unstained negative controls.

Effector/Memory T Cell Analysis

Analysis of effector and memory CD8+ T cell differentiation is shown in Figure 1B. Conversion of T cells to a memory phenotype is important for the development of lasting immunological response to rechallenge in the context of both infection and cancer pathogenesis. CD44 and CD62L analysis enables the delineation of T cells into four differentiation states. These include naïve or inactivated T cells, activated effector T cells (Teff), effector memory (Tem) and central memory (Tcm) subsets. Tem and Tcm subsets can circulate but have tendencies to reside in non-lymphoid and lymphoid tissues, respectively.[2] Recent reports have demonstrated that both of these subsets have distinct roles in the anti-tumor response. A third resident memory (Trm) population has more recently been described as playing an important role in controlling tumor growth in a variety of models and can be delineated using CD103, among other markers.[3] The Expanded CompT™ panel can be customized to include analysis of Trm cells.

T Cell Activation, Exhaustion, and Granzyme B Analysis

The Expanded CompT™ panel includes ICOS, LAG-3, TIM-3, and granzyme B analysis, which are four intensively investigated biomarkers for T cell functionality (Figure 1C). The analysis of these targets alone and in combination can provide insight into the anti-tumor potential of CD8+ T cells. Evidence supports a co-stimulatory and anti-tumor role for ICOS receptor signaling, thus making ICOS an attractive therapeutic target.[4] Granzyme B is often used as a biomarker for cytolytic activity and can correlate with CD8+ T cell anti-tumor responses. Conversely, PD-1, LAG-3 and TIM-3 are inhibitory receptors and while the expression of these three receptors has been linked to T cell exhaustion, a growing body of data suggests heterogeneity among sub-populations exists within the exhausted PD-1 expressing CD8+ T cells.[5] This heterogeneity correlates with the expression pattern of these inhibitory receptors. This profile can help define different sub-populations that have distinct potential to be re-invigorated to proliferate and/or lyse tumor cells.[6] Figure 2 illustrates how the Expanded CompT™ panel can quantify cells with double and triple positive expression for inhibitory receptors and provide insight into the heterogeneous PD-1 expressing T cell subset and its functionality. Numerous other T cell activation and inhibitory receptors have been described and implicated in influencing tumor immune responses; these include TIGIT, OX-40, CD137, CTLA-4, and others. We have experience analyzing many of these markers in ex vivo tumor analysis. With minimal developmental efforts, the Expanded CompT™ can be customized to meet your unique pre-clinical needs.

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Fig. 2: Multiplexed analysis of T cell activation/exhaustion markers in naïve MC38 tumor-derived cells. The Expanded CompT™ panel measures co-expression of several T cell biomarkers for both exhaustion and anti-tumor activity simultaneously. In this example, PD1+ CD8+ T cells were first gated. Downstream analysis then quantifies cells with double and triple positive expression of PD-1, LAG-3, and TIM-3.

Customization – NK/NKT Cell Analysis and Further Options

We can configure custom panels with up to 18 colors, which creates options for the MI-Expanded CompT™ panel. In addition to substituting or adding different T cell activation/exhaustion markers as described in the previous section, NK/NKT cell analysis is a potentially valuable endpoint. This is enabled by the addition of CD49b/CD335 markers to the panel (Figure 3).

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Fig. 3: Expanded CompT™ panel customization to enables analysis NK and NKT cell subsets in naïve MC38 tumor-derived cells. CD3 expression was used to delineate CD49b/CD335+ NK cells and NKT cells. Granzyme B expression levels in these subsets was quantified by downstream analysis.
 

NK and NKT cells are an important source of IFNγ, have indirect effects on enhancing CD8+ T cell anti-tumor responses, and can directly lyse tumor cells by releasing cytolytic granules such as granzyme B.[7,8] Other options include IFNγ, TNFα, or other cytokine analyses for a more in depth profile of PD1+ and PD1– CD8+ T cells. Or add CD103 analysis to examine resident memory T cells for a deeper memory T cell profile in the tumor. Our team has extensive experience developing custom flow cytometry services. To learn more about how the Expanded CompT™ panel can be incorporated into it into your preclinical research, contact the scientists at Labcorp.

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