Identification of a nanomolar affinity α-synuclein fibril imaging probe by ultra-high throughput <i>in silico</i> screening
John J. Ferrie, Zsofia Lengyel‐Zhand, Bieneke Janssen, Marshall G. Lougee, Sam Giannakoulias, Chia‐Ju Hsieh, Vinayak Vishnu Pagar, Chi-Chang Weng, Hong Xu, Thomas J. A. Graham, Virginia M.‐Y. Lee, Robert H. Mach, E. James Petersson
Abstract
screening strategy using idealized pseudo-ligands termed exemplars to identify compounds for experimental binding studies. For the top hit from this screen, we used photo-crosslinking to confirm its binding site and studied the structure-activity relationship of its analogs to develop multiple molecules with nanomolar affinity for αS fibrils and moderate specificity for αS over Aβ fibrils. Lastly, we demonstrated the potential of the lead analog as an imaging probe by measuring binding to αS-enriched homogenates from mouse brain tissue using a radiolabeled analog of the identified molecule. This study demonstrates the validity of our powerful new approach to the discovery of PET probes for challenging molecular targets.