Discovery of indole tetrafluorophenoxymethylketone-based potent novel small molecule inhibitors of caspase-3.

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Background: Caspase-3 inhibition has been demonstrated to be therapeutically effective in moderating excessive programmed cell death. Interest in caspase-3 as a therapeutic target has led many to pursue the development of inhibitors. To date, only a few series of non-peptide inhibitors have been described, and these have limitations on their drug-like properties.

Methods: Here, we report the screening of 70 novel small molecules against the caspase-3 enzyme which belongs to four different series (indole fluoromethylketone, indole difluoro and tetrafluorophenoxymethylketone, and oxalamide). Selected molecules were subjected for counter-screening, cell-based, ADME/PK assays in order to understand the potency and drug-like properties.

Results: The screening yielded series of hits with IC50 values ranging from 0.11 to 10 μM with reasonable SAR, irreversible mode of inhibition, and reasonable selectivity against other proteases including caspase-1, cathepsin B and D, and thrombin. On the basis of in vitro profile, the selected molecules were evaluated for their drug-like properties. Among the compounds evaluated, compound 3D exhibited good solubility, low permeability, interaction with efflux pump, and low potential for CYP450 drug-drug interaction. After intravenous administration, compound 3D showed low clearance (588 ml/hr/kg), medium volume of distribution, and good oral bioavailability (90%).

Conclusions: These results support further advancement of compound 3D in different apoptotic models to develop as a new anti-apoptotic agent in relevant disease conditions.