Abstract
We recently discovered that TAPBPR promotes reglucosylation of the N-linked glycan on MHC class I molecules, a modification that restores their recognition by calreticulin and reincorporation into the peptide-loading complex. We wondered whether TAPBPR displayed some degree of glycan specificity, as is known to be the case for tapasin via its interaction with calreticulin & ERp57, or whether its interaction with MHC class I was glycan independent. Here, we explored this by comparing the ability of TAPBPR to bind to MHC class I containing either an intact or disrupted NxS/T glycosylation consensus sequence. In contrast to tapasin, TAPBPR bound strongly to MHC class I molecules that lacked N-linked glycosylation, suggesting that the TAPBPR:MHC class I interaction is glycan independent. Furthermore, we found that glycosylated HLA-A2 preferentially interacts with tapasin rather than TAPBPR, possibly explaining, in part, why MHC class I molecules bind efficiently to tapasin in the face of an alternative chaperone. The distinction in glycan specificity between the two peptide editors suggests that TAPBPR may bind to MHC class I molecules that are associated with a broader diversity of oligosaccharides attached compared with tapasin. This may explain, to some extent, the ability of TAPBPR to interact with MHC class I molecules outside of the ER.
Highlights
It is well established that MHC class I molecules perform a critical role in infection control and tumour recognition by presenting antigenic peptides to CD8+T lymphocytes
Our findings suggest that in addition to functioning as a peptide editor, TAPBPR acts as a bridge between UGT1 and MHC class I, thereby promoting the reglucosylation of the glycan on peptide receptive class I/β2 m heterodimers, which restores their recognition by calreticulin and their reengagement with the peptide loading complex (PLC) (Neerincx et al, 2017)
To determine if the interaction between TAPBPR and MHC class I was dependent on the glycan found on residue 86, we initially used HLA-A2 molecules tagged at the N-terminus with GFP (Boyle et al, 2006) (Fig. 1A)
Summary
It is well established that MHC class I molecules perform a critical role in infection control and tumour recognition by presenting antigenic peptides to CD8+T lymphocytes. While tapasin is a key component of the peptide loading complex (PLC) forming interactions with TAP and ERp57 (Sadasivan et al, 1996; Li et al, 1997; Ortmann et al, 1997; Dick et al, 2002; Peaper et al, 2005), TAPBPR is not (Boyle et al, 2013) This difference likely has a significant influence with respect to how these two peptide exchange catalysts shape the repertoire of peptides presented by MHC class I molecules
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