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A High Throughput Whole Blood Assay for Analysis of Multiple Antigen-Specific T Cell Responses in Human Mycobacterium tuberculosis Infection
- Whatney, Wendy E;
- Gandhi, Neel R;
- Lindestam Arlehamn, Cecilia S;
- Nizam, Azhar;
- Wu, Hao;
- Quezada, Melanie J;
- Campbell, Angela;
- Allana, Salim;
- Kabongo, Mbuyi Madeleine;
- Khayumbi, Jeremiah;
- Muchiri, Benson;
- Ongalo, Joshua;
- Tonui, Joan;
- Sasser, Loren E;
- Fergus, Tawania J;
- Ouma, Gregory Sadat;
- Ouma, Samuel Gurrion;
- Beck, Allison A;
- Mulligan, Mark J;
- Oladele, Alawode;
- Kaushal, Deepak;
- Cain, Kevin P;
- Waller, Lance;
- Blumberg, Henry M;
- Altman, John D;
- Ernst, Joel D;
- Rengarajan, Jyothi;
- Day, Cheryl L
- et al.
Published Web Location
https://doi.org/10.4049/jimmunol.1701737Abstract
Antigen-specific CD4 and CD8 T cells are important components of the immune response to Mycobacterium tuberculosis, yet little information is currently known regarding how the breadth, specificity, phenotype, and function of M. tuberculosis-specific T cells correlate with M. tuberculosis infection outcome in humans. To facilitate evaluation of human M. tuberculosis-specific T cell responses targeting multiple different Ags, we sought to develop a high throughput and reproducible T cell response spectrum assay requiring low blood sample volumes. We describe here the optimization and standardization of a microtiter plate-based, diluted whole blood stimulation assay utilizing overlapping peptide pools corresponding to a functionally diverse panel of 60 M. tuberculosis Ags. Using IFN-γ production as a readout of Ag specificity, the assay can be conducted using 50 μl of blood per test condition and can be expanded to accommodate additional Ags. We evaluated the intra- and interassay variability, and implemented testing of the assay in diverse cohorts of M. tuberculosis-unexposed healthy adults, foreign-born adults with latent M. tuberculosis infection residing in the United States, and tuberculosis household contacts with latent M. tuberculosis infection in a tuberculosis-endemic setting in Kenya. The M. tuberculosis-specific T cell response spectrum assay further enhances the immunological toolkit available for evaluating M. tuberculosis-specific T cell responses across different states of M. tuberculosis infection, and can be readily implemented in resource-limited settings. Moreover, application of the assay to longitudinal cohorts will facilitate evaluation of treatment- or vaccine-induced changes in the breadth and specificity of Ag-specific T cell responses, as well as identification of M. tuberculosis-specific T cell responses associated with M. tuberculosis infection outcomes.
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