pH-triggered strand exchange in coiled-coil heterotrimers

Abstract

The capacity for pH-triggered strand exchange in designed coiled-coil heterotrimers is demonstrated. Systems employing both hydrophobic core (steric matching) and hydrophilic interface (electrostatic matching) design principles assemble into specific 1:1:1 heterotrimers. Alteration of pH creates electrostatic mismatches, inducing strand exchange in the presence of a suitable replacement peptide. Complexes with one Lys/Lys interface, favored at neutral to high pH, can be transformed to ones with a Glu/Glu contact by lowering pH and adding an appropriate new binding partner. The need to simultaneously maintain matched core alignments enforces specificity in this exchange, such that only a single specific peptide is replaced. These principles have subsequently been applied to the design of dynamically triggered cross-linked structures, in which a bifunctional disulfide-tethered peptide can cross-link two heterotrimers. Both formation and disruption of the cross-link are under pH control.