A kinetic trap is an intrinsic feature in the folding pathway of single-chain Fv fragments Original Research Article

We have studied the equilibrium unfolding and the kinetics of folding and unfolding of an antibody scFv fragment devoid of cis-prolines. An anti-GCN4 scFv fragment carrying a VL lambda domain, obtained by ribosome display, served as the model system together with an engineered destabilized mutant in VH carrying the R66K exchange. Kinetic and equilibrium unfolding experiments indicate that the VH mutation also affects VL unfolding, possibly by partially destabilizing the interface provided by VH, even though the mutation is distant from the interface. Upon folding of the scFv fragment, a kinetic trap is populated whose escape rate is much faster with the more stable VH domain. The formation of the trap can be avoided if refolding is carried out stepwise, with VH folding first. These results show that antibody scFv fragments do not fold by the much faster independent domain folding, but instead form a kinetically trapped off-pathway intermediate, which slows down folding under native conditions. This intermediate is characterized by premature interaction of the unfolded domains, and particularly involving unfolded VH, independent of proline cis–trans isomerization in VL. This work also implies that VH should be a prime target in engineering well behaving antibody fragments.