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PDBsum entry 6jvq
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References listed in PDB file
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Key reference
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Title
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Inhibitor development of mth1 via high-Throughput screening with fragment based library and mth1 substrate binding cavity.
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Authors
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C.Peng,
Y.H.Li,
C.W.Yu,
Z.H.Cheng,
J.R.Liu,
J.L.Hsu,
L.W.Hsin,
C.T.Huang,
H.F.Juan,
J.W.Chern,
Y.S.Cheng.
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Ref.
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Bioorg Chem, 2021,
110,
104813.
[DOI no: ]
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PubMed id
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Abstract
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MutT Homolog 1 (MTH1) has been proven to hydrolyze oxidized nucleotide
triphosphates during DNA repair. It can prevent the incorporation of wrong
nucleotides during DNA replication and mitigate cell apoptosis. In a cancer
cell, abundant reactive oxygen species can lead to substantial DNA damage and
DNA mutations by base-pairing mismatch. MTH1 could eliminate oxidized dNTP and
prevent cancer cells from entering cell death. Therefore, inhibition of MTH1
activity is considered to be an anti-cancer therapeutic target. In this study,
high-throughput screening techniques were combined with a fragment-based library
containing 2,313 compounds, which were used to screen for lead compounds with
MTH1 inhibitor activity. Four compounds with MTH1 inhibitor ability were
selected, and compound MI0639 was found to have the highest effective
inhibition. To discover the selectivity and specificity of this action, several
derivatives based on the MTH1 and MI0639 complex structure were synthesized. We
compared 14 complex structures of MTH1 and the various compounds in combination
with enzymatic inhibition and thermodynamic analysis. Nanomolar-range
IC50 inhibition abilities by enzyme kinetics and Kd values
by thermodynamic analysis were obtained for two compounds, named MI1020 and
MI1024. Based on structural information and compound optimization, we aim to
provide a strategy for the development of MTH1 inhibitors with high selectivity
and specificity.
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