Folding of the conserved domain but not of flanking regions in the integrin β₂ subunit requires association with the α subunit

Abstract

We have used immunoprecipitation with mAbs to probe folding during biosynthesis of the β₂ integrin subunit of lymphocyte function-associated antigen 1 (LFA-1; CD11a/CD18) before and after association with the α_L subunit. An evolutionarily conserved region is present in the β₂ subunit between amino acid residues 102 and 344. mAbs to one subregion before the conserved region, and two subregions after the conserved domain, immunoprecipitated both the unassociated β′₂ precursor and mature α_L/β₂ complex, suggesting portions of these subregions are folded before association with α_L. An activating mAb to the C-terminal cysteine-rich region, KIM127, preferentially bound to the unassociated β subunit, suggesting that it may bind to an epitope that is in an αβ interface in unactivated LFA-1. By contrast, mAbs to five different epitopes in the conserved region did not react with unassociated β′₂ precursor, suggesting that this region folds after α_L association and is intimately associated with the α_L subunit in the α_L/β₂ complex. mAbs to two different epitopes that involve the border between the conserved region and the C-terminal segment, were fully or partially reactive with the β′₂ precursor, suggesting that this region is partially folded before association with α_L. The findings suggest that the conserved region is a distinct folding and hence structural unit, and is intimately associated with the α subunit.