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PDBsum entry 3vb3
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References listed in PDB file
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Key reference
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Title
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Design, Synthesis and crystallographic analysis of nitrile-Based broad-Spectrum peptidomimetic inhibitors for coronavirus 3c-Like proteases.
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Authors
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C.P.Chuck,
C.Chen,
Z.Ke,
D.C.Wan,
H.F.Chow,
K.B.Wong.
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Ref.
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Eur J Med Chem, 2013,
59,
1-6.
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PubMed id
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Abstract
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Coronaviral infection is associated with up to 5% of respiratory tract diseases.
The 3C-like protease (3CL(pro)) of coronaviruses is required for proteolytic
processing of polyproteins and viral replication, and is a promising target for
the development of drugs against coronaviral infection. We designed and
synthesized four nitrile-based peptidomimetic inhibitors with different
N-terminal protective groups and different peptide length, and examined their
inhibitory effect on the in-vitro enzymatic activity of 3CL(pro) of
severe-acute-respiratory-syndrome-coronavirus. The IC(50) values of the
inhibitors were in the range of 4.6-49 μM, demonstrating that the nitrile
warhead can effectively inactivate the 3CL(pro) autocleavage process. The best
inhibitor, Cbz-AVLQ-CN with an N-terminal carbobenzyloxy group, was ∼10x more
potent than the other inhibitors tested. Crystal structures of the
enzyme-inhibitor complexes showed that the nitrile warhead inhibits 3CL(pro) by
forming a covalent bond with the catalytic Cys145 residue, while the AVLQ
peptide forms a number of favourable interactions with the S1-S4
substrate-binding pockets. We have further showed that the peptidomimetic
inhibitor, Cbz-AVLQ-CN, has broad-spectrum inhibition against 3CL(pro) from
human coronavirus strains 229E, NL63, OC43, HKU1, and infectious bronchitis
virus, with IC(50) values ranging from 1.3 to 3.7 μM, but no detectable
inhibition against caspase-3. In summary, we have shown that the nitrile-based
peptidomimetic inhibitors are effective against 3CL(pro), and they inhibit
3CL(pro) from a broad range of coronaviruses. Our results provide further
insights into the future design of drugs that could serve as a first line
defence against coronaviral infection.
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