Comparison between major histocompatibility complex class II tetramer staining and surface expression of activation markers for the detection of allergen-specific CD4⁺ T cells

Background: Major histocompatibility complex (MHC) class II tetramers (tetramers) allow to detect allergen-specific CD4(+) T cells at a single-cell level. Limits to this technology include HLA restriction and the need to identify immunodominant T cell epitopes.

Objective: Assessing the expression of various activation markers following allergen stimulation to replace tetramer staining.

Methods: Peripheral blood mononuclear cells (PBMCs) from 25 birch pollen, grass pollen or house dust mite allergic individuals were stimulated with peptide mixes encompassing immunodominant epitopes from corresponding major allergens. After 2 weeks of in vitro amplification, cells were stained with both the appropriate tetramer and antibodies directed to CD25, CD30, CD39, CD69, CD137, CD154, GITR, HLA-DR and ICOS, before FACS analysis.

Results: Following allergen stimulation, percentages of tetramer(+) cells among CD4(+) CD154(+) cells range from 5% to 87%, depending upon donors. As for CD154, a large inter-individual variability is observed in terms of surface expression for all activation markers tested in allergen-stimulated PBMCs. T cells reactive with either tetramers (0.4-10.4% CD4(+) T cells) or anti-marker antibodies (2.2-32.7% CD4(+) T cells), but not both, are observed, reflecting the presence of anergic as well as non-specifically activated cells. Tetramer(+) /marker(+) , tetramer(+) /marker(-) and tetramer(-) /marker(+) cells were compared for their capacity to express cytokines, demonstrating that only the former represent bona fide allergen-specific activated CD4(+) T cells, based upon a higher expression of cytokines or corresponding genes in presence of the allergen.

Conclusion and clinical relevance: No strict correlation exists between tetramer staining and the expression of multiple activation markers in stimulated CD4(+) T cells. Dual staining allows to discriminate functional tetramer(+) /marker(+) vs. anergic (tetramer(+) /marker(-) ) allergen-specific T cells or non-specifically activated (tetramer(-) /marker(+) ) T cells. Combining tetramer staining with the detection of activation markers helps understanding patient heterogeneity regarding specific CD4(+) T cell responses. This approach has immediate relevance for monitoring immune changes induced during specific immunotherapy.