TCR diversity measures are often used to understand the immune response in cancer. Traditional measures of diversity rely on bulk RNA sequencing (RNAseq) of the β-chain variable regions. However, the full αβ TCR repertoire is a combination of both the α- and β-chains, which are encoded by separate genes. In contrast with bulk RNAseq, single-cell RNAseq (scRNAseq) allows paired chain analyses, yielding a more accurate measure of the repertoire. Interestingly, ∼30% of mature peripheral T cells express multiple TCR alleles (e.g., two α-chains) and may exhibit dual Ag specificity. scRNAseq has become increasingly common, and data from both human and animal studies are publicly available. However, routine workflows discard secondary TCR alleles and focus on a single TCR clone per cell. This perspectives piece emphasizes why this may not be good practice and highlights unanswered questions in the field of T cell dual specificity.
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| http://dx.doi.org/10.4049/immunohorizons.2200062 | DOI Listing |
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Article Synopsis
- CMV reactivation is a significant health issue for patients who have undergone stem cell or organ transplants, leading to increased risks of illness and death.
- Three CMV-specific Fab-antibodies (A6, C1, C7) have been developed to bind to particular MHC molecules, showing effectiveness in targeting and destroying CMV-infected cells, especially when used in combination with natural killer (NK) cells.
- The TCR-like antibodies also demonstrated the ability to activate neutrophils to kill target cells, offering a promising treatment option for patients experiencing or at risk of CMV reactivation, with a broader potential patient application than previous methods.
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