Journal
JOURNAL OF IMMUNOLOGY
Volume 165, Issue 1, Pages 322-330Publisher
AMER ASSOC IMMUNOLOGISTS
DOI: 10.4049/jimmunol.165.1.322
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The murine class I H-2K(b) molecule achieves high level surface expression in tapasin-deficient 721.220 human cells. Compared with their behavior in wild-type cells, K-b molecules expressed on 721.220 cells are more receptive to exogenous peptide, undergo more rapid surface decay, and fail to form macromolecular peptide loading complexes, As a result, they are rapidly transported to the cell surface, reflecting a failure of endoplasmic reticulum retention mechanisms in the absence of loading complex formation. Despite the failure of K-b molecules to colocalize to the TAP and their rapid egress to the fell surface, K-b is still capable of presenting TAP-dependent peptides in the absence of tapasin. Furthermore, pool sequencing of peptides eluted from these molecules revealed strict conservation of their canonical H-2K(b)-binding moth, There was a reduction in the total recovery of peptides associated with K-b molecules purified from the surface of tapasin-deficient cells. Comparison of the peptides bound to K-b in the presence and absence of tapasin revealed considerable overlap in peptide repertoire, These results indicate that in the absence of an interaction with tapasin, K-b molecules fail to assemble with calreticulin and TAP, yet they are still capable of acquiring a diverse array of peptides, However, a significant proportion of these peptides appear to be suboptimal, resulting in reduced cell surface stability of K-b complexes. Taken together, the findings indicate that tapasin plays an essential role in the formation of the class I loading complex, which retains class I heterodimers in the endoplasmic reticulum until optimal ligand selection is completed.
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