Structure−Activity Relationships and Pharmacokinetic Analysis for a Series of Potent, Systemically Available Biphenylsulfonamide Matrix Metalloproteinase Inhibitors

Autor: O'Brien, P. M., Ortwine, D. F., Pavlovsky, A. G., Picard, J. A., Sliskovic, D. R., Roth, B. D., Dyer, R. D., Johnson, L. L., Man, C. F., Hallak, H.
Zdroj: Journal of Medicinal Chemistry; January 27, 2000, Vol. 43 Issue: 2 p156-166, 11p
Abstrakt: A series of biphenylsulfonamide derivatives of (S)-2-(biphenyl-4-sulfonylamino)-3-methylbutyric acid (5) were prepared and evaluated for their ability to inhibit matrix metalloproteinases (MMPs). For this series of compounds, our objective was to systematically replace substituents appended to the biphenyl and α-position of 5 with structurally diverse functionalities to assess the effects these changes have on biological and pharmacokinetic activity. The ensuing structure−activity relationship (SAR) studies showed that biphenylsulfonamides substituted with bromine in the 4‘-position (11c) significantly improved in vitro activity and exhibited superior pharmacokinetics (Cmax, t1/2, AUCs), relative to compound 5. Varying the lipophilicity of the α-position by replacing the isopropyl group of 11c with a variety of substituents, in general, maintained potency versus MMP-2, -3, and -13 but decreased the oral systemic availability. Subsequent evaluation of its enantiomer, 11c‘, showed that both compounds were equally effective MMP inhibitors. In contrast, the corresponding hydroxamic acid enantiomeric pair, 16a (S-isomer) and 16a‘ (R-isomer), stereoselectivity inhibited MMPs. For the first time in this series, 16a‘ provided nanomolar potency against MMP-1, -7, and -9 (IC50's = 110, 140, and 18 nM, respectively), whereas 16a was less potent against these MMPs (IC50's = 24, 78, and 84 μM, respectively). However, unlike 11c, compound 16a‘ afforded very low plasma concentrations following a single 5 mg/kg oral dose in rat. Subsequent X-ray crystal structures of the catalytic domain of stromelysin (MMP-3CD) complexed with inhibitors from closely related series established the differences in the binding mode of carboxylic acid-based inhibitors (11c,c‘) relative to the corresponding hydroxamic acids (16a,a‘).
Databáze: Supplemental Index