Title : Automated design of ligands to polypharmacological profiles - Besnard_2012_Nature_492_215 |
Author(s) : Besnard J , Ruda GF , Setola V , Abecassis K , Rodriguiz RM , Huang XP , Norval S , Sassano MF , Shin AI , Webster LA , Simeons FR , Stojanovski L , Prat A , Seidah NG , Constam DB , Bickerton GR , Read KD , Wetsel WC , Gilbert IH , Roth BL , Hopkins AL |
Ref : Nature , 492 :215 , 2012 |
Abstract :
The clinical efficacy and safety of a drug is determined by its activity profile across many proteins in the proteome. However, designing drugs with a specific multi-target profile is both complex and difficult. Therefore methods to design drugs rationally a priori against profiles of several proteins would have immense value in drug discovery. Here we describe a new approach for the automated design of ligands against profiles of multiple drug targets. The method is demonstrated by the evolution of an approved acetylcholinesterase inhibitor drug into brain-penetrable ligands with either specific polypharmacology or exquisite selectivity profiles for G-protein-coupled receptors. Overall, 800 ligand-target predictions of prospectively designed ligands were tested experimentally, of which 75% were confirmed to be correct. We also demonstrate target engagement in vivo. The approach can be a useful source of drug leads when multi-target profiles are required to achieve either selectivity over other drug targets or a desired polypharmacology. |
PubMedSearch : Besnard_2012_Nature_492_215 |
PubMedID: 23235874 |
Besnard J, Ruda GF, Setola V, Abecassis K, Rodriguiz RM, Huang XP, Norval S, Sassano MF, Shin AI, Webster LA, Simeons FR, Stojanovski L, Prat A, Seidah NG, Constam DB, Bickerton GR, Read KD, Wetsel WC, Gilbert IH, Roth BL, Hopkins AL (2012)
Automated design of ligands to polypharmacological profiles
Nature
492 :215
Besnard J, Ruda GF, Setola V, Abecassis K, Rodriguiz RM, Huang XP, Norval S, Sassano MF, Shin AI, Webster LA, Simeons FR, Stojanovski L, Prat A, Seidah NG, Constam DB, Bickerton GR, Read KD, Wetsel WC, Gilbert IH, Roth BL, Hopkins AL (2012)
Nature
492 :215