Refolding of human class II major histocompatibility complex molecules isolated from Escherichia coli. Assembly of peptide-free heterodimers and increased refolding-yield in the presence of antigenic peptide.

The alpha- and beta-chains of the heterodimeric major histocompatibility complex molecules HLA-DRB5*0101 and DRB1*0101 were expressed separately in Escherichia coli. The cytoplasmic and membrane-spanning domains of both chains were replaced by oligohistidine tags to allow purification by metal chelate chromatography. The recombinant proteins were refolded to peptide-free, water-soluble heterodimers by removal of major amounts of detergents and concomitant reoxidiation of disulfide bonds. Correct conformation was documented by three criteria: (a) affinity binding experiments using the antibody L243, which is known to recognize a conformational epitope formed only by correctly associated heterodimers; (b) specific binding of peptides to the refolded molecules; (c) recognition of peptides bound to refolded HLA-DR molecules by T-cells as reflected by Ca2+ influx into T-cells and production of interferon-gamma. The refolding reaction did not absolutely depend on the presence of peptides. The yield of peptide-free heterodimers was 3.0%. However, the yield of refolded heterodimer was increased to 10% if refolding was performed in the presence of antigenic peptides.