MHC Class II Tetramers

Nepom, Gerald T.

doi:10.4049/jimmunol.1102398

Cited by 108 publications

(101 citation statements)

References 70 publications

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“…However, the MHC-multimer technology is limited to the previous knowledge of MHC alleles and antigenic epitopes. Due to the very high diversity of MHC molecules and especially for complex pathogens, containing hundreds or thousands of different target epitopes, choosing the right peptide-MHC combinations to study Ag-specific T cell responses is quite challenging (23). Furthermore, the restriction to few antigenic epitopes gives only limited and preselected insight into the heterogeneous T cell populations specific for a certain Ag.…”

mentioning

confidence: 99%

Antigen-Reactive T Cell Enrichment for Direct, High-Resolution Analysis of the Human Naive and Memory Th Cell Repertoire

Bächer

Schink

Teutschbein

et al. 2013

The Journal of Immunology

157

239

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Ag-specific CD4+ T cells orchestrating adaptive immune responses are crucial for the development of protective immunity, but also mediate immunopathologies. To date, technical limitations often prevented their direct analysis. In this study, we report a sensitive flow cytometric assay based on magnetic pre-enrichment of CD154+ T cells to visualize rare Ag-reactive naive and memory Th cells directly from human peripheral blood. The detection limit of ∼1 cell within 105–106 permitted the direct enumeration and characterization of auto-, tumor-, or neo-Ag–reactive T cells within the naive and even memory CD4+ T cell repertoire of healthy donors. Furthermore, the analysis of high target cell numbers after pre-enrichment of rare Ag-specific T cells from large blood samples dramatically improved the identification of small subpopulations. As exemplified in this work, the dissection of the Ag-specific memory responses into small cytokine-producing subsets revealed great heterogeneity between pathogens, but also pathogen-related microsignatures refining Th cell subset classification. The possibility to directly analyze CD4+ T cells reactive against basically any Ag of interest at high resolution within the naive and memory repertoire will open up new avenues to investigate CD4+ T cell–mediated immune reactions and their use for clinical diagnostics.

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mentioning

confidence: 99%

Antigen-Reactive T Cell Enrichment for Direct, High-Resolution Analysis of the Human Naive and Memory Th Cell Repertoire

Bächer

Schink

Teutschbein

et al. 2013

The Journal of Immunology

157

239

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“…Len and colleagues further predicted, "our separation technique is specifically designed to detect and separate rare cells, and we ultimately hope to investigate the primary response by use of a virgin spleen-cell population enriched with antigen-binding cells." Today fluorochromelabeled MHC-peptide tetrameric complexes and FACS are routinely used to quantitate and isolate T cells from both naive and immunized mice and humans (9).…”

Section: Lewis L Laniermentioning

confidence: 99%

Just the FACS

Lanier

2014

The Journal of Immunology

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“…HLA/ peptide complexes can engage αβTCR and permit the analysis of allergen-specific CD4 + T cells. The concept of using soluble HLA/peptide-labeled ligands to study these rare T-cell populations has been a successful strategy applied in numerous translational and clinical contexts [9]. As mentioned earlier, Class II tetramers can be used to identify novel T-cell epitopes.…”

Section: Introductionmentioning

confidence: 99%

Tetramer-Guided Epitope Mapping: A Rapid Approach to Identify HLA-Restricted T-Cell Epitopes from Composite Allergens

Archila¹,

Kwok

2017

Methods in Molecular Biology

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Tetramer-guided epitope mapping (TGEM) is a technique in immunology that permits the rapid identification of allergenic epitopes through peptide screening procedures utilizing human lymphocyte antigen (HLA) class II tetramers as staining reagents for detection. The identification of allergenic epitopes is a prerequisite for the accurate characterization of allergen-specific CD4 T cells without in vitro stimulation. Additionally, these MHC-II/peptide complexes that interact with T-cell receptors (TCR) of pathogenic CD4 T cells are compatible with a different number of assays like Intracelullar Cytokine Staining (ICS), and Carboxyfluorescein succinimidyl ester (CFSE) making it a robust technology to study the functionality of allergen-specific CD4 T cells.

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MHC Class II Tetramers

Cited by 108 publications

References 70 publications

Antigen-Reactive T Cell Enrichment for Direct, High-Resolution Analysis of the Human Naive and Memory Th Cell Repertoire

Antigen-Reactive T Cell Enrichment for Direct, High-Resolution Analysis of the Human Naive and Memory Th Cell Repertoire

Just the FACS

Tetramer-Guided Epitope Mapping: A Rapid Approach to Identify HLA-Restricted T-Cell Epitopes from Composite Allergens

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