TAPBPR, a Peptide Editor – interactions with MHC complexes and SAXS structural studies

Abstract

Abstract TAPBPR (TAP Binding Protein-Related), a tapasin homolog, functions as a peptide editor independent of the classical peptide loading complex (PLC) that consists of tapasin, transporter associated with antigen processing (TAP), ERp57, and calreticulin. Using insect-cell expressed recombinant luminal human TAPBPR, we previously reported interaction with HLA-A*02:01 molecules freed of peptide following photolysis of HLA-A2/beta2m complexes prepared with photolabile peptides. Here, we extend our analysis of the TABPBPR/MHC interaction by examining the binding of a set of MHC/peptide complexes prepared with different MHC-I molecules refolded with a variety of peptides. Using surface plasmon resonance, we show that a variety of refolded complexes, with or without photolysis of the bound peptide, bind to TAPBPR, raising the possibility that TAPBPR may interact either with a small proportion of peptide free molecules found in some MHC/peptide preparations, or with molecular conformations containing peptide in dynamic equilibrium with the lowest energy state. We extend our analysis of TAPBPR by determination of the low resolution small angle X-ray scattering structures of both TAPBPR and tapasin luminal domains, revealing expected structural similarities.