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Targeting a Subpocket in Trypanosoma brucei Phosphodiesterase B1 (TbrPDEB1) Enables the Structure-Based Discovery of Selective Inhibitors with Trypanocidal Activity.

Antoni R BlaazerAbhimanyu K SinghErik de HeuvelEwald EdinkKristina M OrrlingJohan J N VeermanToine van den BerghChimed JansenErin BalasubramaniamWouter J MooijHans CustersMaarten SijmDaniel N A TagoeTitilola D KalejaiyeJane C MundayHermann TenorAn MatheeussenMaikel WijtmansMarco SideriusChris de GraafLouis MaesHarry P de KoningDavid S BaileyGeert Jan SterkIwan J P de EschDavid G BrownRob Leurs
Published in: Journal of medicinal chemistry (2018)
Several trypanosomatid cyclic nucleotide phosphodiesterases (PDEs) possess a unique, parasite-specific cavity near the ligand-binding region that is referred to as the P-pocket. One of these enzymes, Trypanosoma brucei PDE B1 (TbrPDEB1), is considered a drug target for the treatment of African sleeping sickness. Here, we elucidate the molecular determinants of inhibitor binding and reveal that the P-pocket is amenable to directed design. By iterative cycles of design, synthesis, and pharmacological evaluation and by elucidating the structures of inhibitor-bound TbrPDEB1, hPDE4B, and hPDE4D complexes, we have developed 4a,5,8,8a-tetrahydrophthalazinones as the first selective TbrPDEB1 inhibitor series. Two of these, 8 (NPD-008) and 9 (NPD-039), were potent ( Ki = 100 nM) TbrPDEB1 inhibitors with antitrypanosomal effects (IC50 = 5.5 and 6.7 μM, respectively). Treatment of parasites with 8 caused an increase in intracellular cyclic adenosine monophosphate (cAMP) levels and severe disruption of T. brucei cellular organization, chemically validating trypanosomal PDEs as therapeutic targets in trypanosomiasis.
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