Mutual Stabilization of VLand VHin Single-Chain Antibody Fragments, Investigated with Mutants Engineered for Stability

Abstract

A set of six mutants of the levan binding single-chain Fv (scFv) fragment A48 (ABPC48), which have the identical light chain but differ gradually in the stability of the heavy chain, was generated. This was achieved by introducing one or both of the stabilizing mutations H−K66R and H−N52S into the V_H domain of the A48 wild-type protein, which is naturally missing the conserved disulfide bridge in V_H, and into the cysteine-restored variant A48cys scFv. The stabilizing effects of these two mutations in V_H, which had been selected in the context of a disulfide-free derivative of this scFv fragment [Proba, K., et al. (1998) J. Mol. Biol. 275, 245−253], were found to be additive and transferable to the cysteine-restored variant of the A48 scFv, thereby generating extremely stable V_H domains. The equilibrium denaturation of these scFv fragments was compared with the corresponding isolated V_L domain and two of the different isolated V_H domains. In the scFv fragment, the V_L domain was found to be stabilized by a more stable V_H domain, and, conversely, the V_H domain was stabilized by a more stable V_L domain. A folding intermediate with nativelike V_H and denatured V_L was found at equilibrium, if V_H was significantly more stable than V_L. In all other cases, a cooperative unfolding of the scFv was observed. We explain this observation with different contributions of intrinsic domain stability and extrinsic stabilization provided by the partner domain in the single-chain antibodies.