Author: Alâ€Gharabli, Samer I.; Shah, Syed T. Ali; Weik, Steffen; Schmidt, Marco F.; Mesters, Jeroen R.; Kuhn, Daniel; Klebe, Gerhard; Hilgenfeld, Rolf; Rademann, Jörg
Title: An Efficient Method for the Synthesis of Peptide Aldehyde Libraries Employed in the Discovery of Reversible SARS Coronavirus Main Protease (SARSâ€CoV M(pro)) Inhibitors Cord-id: cguk4v9k Document date: 2006_5_10
ID: cguk4v9k
Snippet: A method for the parallel solidâ€phase synthesis of peptide aldehydes has been developed. Protected amino acid aldehydes obtained by the racemizationâ€free oxidation of amino alcohols with Dess–Martin periodinane were immobilized on threonyl resins as oxazolidines. Following Boc protection of the ring nitrogen to yield the Nâ€protected oxazolidine linker, peptide synthesis was performed efficiently on this resin. A peptide aldehyde library was designed for targeting the SARS coronavirus mai
Document: A method for the parallel solidâ€phase synthesis of peptide aldehydes has been developed. Protected amino acid aldehydes obtained by the racemizationâ€free oxidation of amino alcohols with Dess–Martin periodinane were immobilized on threonyl resins as oxazolidines. Following Boc protection of the ring nitrogen to yield the Nâ€protected oxazolidine linker, peptide synthesis was performed efficiently on this resin. A peptide aldehyde library was designed for targeting the SARS coronavirus main protease, SARSâ€CoV M(pro)(also known as 3CL(pro)), on the basis of three different reported binding modes and supported by virtual screening. A set of 25 peptide aldehydes was prepared by this method and investigated in inhibition assays against SARSâ€CoV M(pro). Several potent inhibitors were found with IC(50) values in the low micromolar range. An IC(50) of 7.5 μm was found for AcNSTSQâ€H and AcESTLQâ€H. Interestingly, the most potent inhibitors seem to bind to SARSâ€CoV M(pro) in a noncanonical binding mode.
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