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Exploring the Chemical Space of Multitarget Ligands Using Aligned Self-Organizing Maps

: Aschenbach, J.; Klingler, F.M.; Blöcher, R.; Moser, D.; Häfner, A.K.; Rödl, C.B.; Kretschmer, S.; Krüger, B.; Löhr, F.; Stark, H.; Hofmann, B.; Steinhilber, D.; Proschak, E.


ACS medicinal chemistry letters 4 (2013), Nr.12, S.1169-1172
ISSN: 1948-5875 (online)
Fraunhofer IME ()

Design of multitarget drugs and polypharmacological compounds has become popular during the past decade. However, the main approach to design such compounds is to link two selective ligands via a flexible linker. Although such chimeric ligands often have reasonable potency in vitro, the in vivo efficacy is low due to high molecular weight, low ligand efficiency, and poor pharmacokinetic profile. We developed an unprecedented in silico approach for fragment-based design of multitarget ligands. It relies on superposition of the chemical spaces related to the affinity on single targets represented by self-organizing maps. We used this approach for screening of molecular fragments, which bind to the enzymes 5-lipoxygenase (5-LO) and soluble epoxide hydrolase (sEH). Using STD-NMR and activity-based assays, we were able to identify fragments binding to both targets. Furthermore, we were able to expand one of the fragments to a potent dual inhibitor bearing a reasonable molecular weight (MW = 446) and high affinity to both targets (IC50 of 0.03 μM toward 5-LO and 0.17 μM toward sEH).