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  • Exploiting differences in c...
    Maillard, Michel C; Brookfield, Frederick A; Courtney, Stephen M; Eustache, Florence M; Gemkow, Mark J; Handel, Rebecca K; Johnson, Laura C; Johnson, Peter D; Kerry, Mark A; Krieger, Florian; Meniconi, Mirco; Muñoz-Sanjuán, Ignacio; Palfrey, Jordan J; Park, Hyunsun; Schaertl, Sabine; Taylor, Malcolm G; Weddell, Derek; Dominguez, Celia

    Bioorganic & medicinal chemistry, 2011-Oct-01, Letnik: 19, Številka: 19
    Journal Article

    Several caspases have been implicated in the pathogenesis of Huntington’s disease (HD); however, existing caspase inhibitors lack the selectivity required to investigate the specific involvement of individual caspases in the neuronal cell death associated with HD. In order to explore the potential role played by caspase-2, the potent but non-selective canonical Ac-VDVAD-CHO caspase-2 inhibitor 1 was rationally modified at the P₂ residue in an attempt to decrease its activity against caspase-3. With the aid of structural information on the caspase-2, and -3 active sites and molecular modeling, a 3-(S)-substituted-l-proline along with four additional scaffold variants were selected as P₂ elements for their predicted ability to clash sterically with a residue of the caspase-3 S₂ pocket. These elements were then incorporated by solid-phase synthesis into pentapeptide aldehydes 33a–v. Proline-based compound 33h bearing a bulky 3-(S)-substituent displayed advantageous characteristics in biochemical and cellular assays with 20- to 60-fold increased selectivity for caspase-2 and ∼200-fold decreased caspase-3 potency compared to the reference inhibitor 1. Further optimization of this prototype compound may lead to the discovery of valuable pharmacological tools for the study of caspase-2 mediated cell death, particularly as it relates to HD.