Nonpeptide Bradykinin B2 Receptor Antagonists: Conversion of Rodent-Selective Bradyzide Analogues into Potent, Orally-Active Human Bradykinin B2 Receptor Antagonists

Abstract

The 1-(2-nitrophenyl)thiosemicarbazide (TSC) derivative, (S)-1-[4-(4-benzhydrylthiosemicarbazido)-3-nitrobenzenesulfonyl]pyrrolidine-2-carboxylic acid {2-[(2-dimethylaminoethyl)methylamino]ethyl}amide (bradyzide; (S)-4), was recently disclosed as a novel, potent, orally active nonpeptide bradykinin (BK) B₂ receptor antagonist. The compound inhibited the specific binding of [³H]BK to NG108-15 cell membrane preparations (rodent neuroblastoma-glioma) expressing B₂ receptors with a K_i of 0.5 ± 0.2 nM. Compound (S)-4 also demonstrated oral efficacy against Freund's complete adjuvant (FCA)-induced mechanical hyperalgesia in rats with an ED₅₀ value of 0.84 μmol/kg. After we optimized the terminal binding determinants projecting from the TSC framework, we found that it was possible to replace the potentially toxicophoric nitro and divalent sulfur moieties with only a 15-fold loss in binding affinity ((S)-14a). However, bradyzide and its congeners were found to have much lower affinities for cloned human B₂ receptors, expressed in Cos-7 cells. The hitherto synthesized TSC series was screened against the human B₂ receptor, and the dibenzosuberane (DBS) pharmacophore emerged as the key structural requirement for potency. Incorporation of this group resulted in a series of derivatives ((S)-14d,e and 19b − d) with K_i ranges of 10.7−176 nM in NG108-15 cells (expressing the rodent B₂ receptor) and 0.79−253 nM in Cos-7 cells (expressing the human B₂ receptor). There was no evidence of agonist activity with any of the nonpeptides in any of the cell lines tested. In vivo, oral administration of compound 19c reversed FCA-induced and turpentine-induced mechanical hyperalgesia in rodents with ED₅₀ values of 0.027 and 0.32 μmol/kg, respectively. The selectivity profiles of compounds (S)-14f and (S)-14 g were also assessed to determine the conformational and/or steric preferences of the double-ring arrangement. The affinity of (S)-14 g for the human B₂ receptor suggested that it may be a hydrophobic interaction with the ethane bridge of the DBS moiety that accounts for the increased potency of compounds (S)-14d,e and 19b,c at this receptor, by favoring a binding mode inaccessible to the unsubstituted diphenylmethyl derivative, (S)-4.