Flexibility of human IgG subclasses

Abstract

A variable region (Id)-matched set of genetically engineered human IgG1, -2, -3, and -4 subclass molecules was analyzed by electron microscopy for hinge-mediated differences in flexibility. The hinge-mediated bending was studied, as was the ability of the subclasses to form immune complexes with two anti-Id mAbs. The data show that the rank order (most to least flexible) of the IgG subclasses for hinge-folding mode of flexibility between Fab arms is IgG3 > IgG1 > IgG4 > IgG2. The mean Fab-Fab angles for the subclasses are IgG3, 136 degrees; IgG4, 128 degrees; IgG2, 127 degrees; and IgG1, 117 degrees. Fab-Fc angles were similarly analyzed. By sampling of equimolar mixtures of Id-bearing IgGs and each of two anti-Id mAb after incubation over time (1.5 min to 3.5 h), different kinetic profiles of immune complex formation of defined geometry were documented. Both anti-Id mAbs displayed unique kinetic profiles when complexed with the four IgG subclass molecules but also shared important features. Most notable was the higher propensity to form closed bivalent ring Id-anti-Id dimers with IgG3 than with IgG2 and IgG4. IgG1 was intermediate in its ability to form such dimers.