Abstract

The viability of the fragment-based approach for lead discovery depends on reliable fragment-screening methods combined with straightforward fragment-linking- or fragment-growing-chemistry. In the present study we sought a flexible synthetic approach that would allow efficient synthesis of a variety of linkers that can subsequently be tested for biological activity. We applied this approach to fragments known to bind to FKBP12 (FK506 binding protein), a peptidyl-prolyl isomerase involved in immunosuppression and neural functioning. In our set of linked FKBP ligands, ester and thioester linkages resulted in high-affinity ligands, whereas an amide linkage decreased affinity remarkably; oxime and triazole linkages were not tolerated by the target protein's binding pocket, rendering these ligands ineffective. By investigating corresponding derivatized non-linked fragments and docking studies of linked fragments, we were able to evaluate the effect of the linker region on ligand binding affinity.