Data from: TAPBPR alters MHC class I peptide presentation by functioning as a peptide exchange catalyst
Data files
Oct 08, 2015 version files 328.35 KB
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HeLa and HeLa WT TAPBPR.xlsx
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Hela IFNy and Hela IFNy TAPBPR KO.xlsx
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HeLa IFNy and HeLa INFy shTAPBPR.xlsx
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KBM7 elution from B1232.xlsx
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KBM7 elution from BB72.xlsx
Abstract
Our understanding of the antigen presentation pathway has recently been enhanced with the identification that the tapasin-related protein TAPBPR is a second MHC I-specific chaperone. We sought to determine whether, like tapasin, TAPBPR can also influence MHC I peptide selection by functioning as a peptide exchange catalyst. We show that TAPBPR can catalyse the dissociation of peptides from peptide-MHC I complexes, enhance the loading of peptide-receptive MHC I molecules, and discriminate between peptides based on affinity in vitro. In cells, the depletion of TAPBPR increased the diversity of peptides presented on MHC I molecules, suggesting that TAPBPR is involved in restricting peptide presentation. Our results suggest TAPBPR binds to MHC I in a peptide-receptive state and, like tapasin, works to enhance peptide optimisation. It is now clear there are two MHC class I specific peptide editors, tapasin and TAPBPR, intimately involved in controlling peptide presentation to the immune system.