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W2142556152 abstract "The rational design of selective kinase inhibitors remains a great challenge. Here we describe a physics-based approach to computationally modeling the kinase inhibitor selectivity profile. We retrospectively assessed this protocol by computing the binding profiles of 17 well-known kinase inhibitors against 143 kinases. Next, we predicted the binding profile of the chemotherapy drug mitoxantrone, and chose the predicted top five kinase targets for in vitro kinase assays. Remarkably, mitoxantrone was shown to possess low nanomolar inhibitory activity against PIM1 kinase and to inhibit the PIM1-mediated phosphorylation in cancer cells. We further determined the crystal complex structure of PIM1 bound with mitoxantrone, which reveals the structural and mechanistic basis for a novel mode of PIM1 inhibition. Although mitoxantrone’s mechanism of action had been originally thought to act through DNA intercalation and type II topoisomerase inhibition, we hypothesize that PIM1 kinase inhibition might also contribute to mitoxantrone’s therapeutic efficacy and specificity." @default.
W2142556152 created "2016-06-24" @default.
W2142556152 creator A5000432967 @default.
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W2142556152 creator A5074665620 @default.
W2142556152 creator A5076699095 @default.
W2142556152 date "2013-03-15" @default.
W2142556152 modified "2023-10-04" @default.
W2142556152 title "A New Target for an Old Drug: Identifying Mitoxantrone as a Nanomolar Inhibitor of PIM1 Kinase via Kinome-Wide Selectivity Modeling" @default.
W2142556152 cites W1547070820 @default.
W2142556152 cites W182249916 @default.
W2142556152 cites W1952188797 @default.
W2142556152 cites W1972763326 @default.
W2142556152 cites W1973060079 @default.
W2142556152 cites W1975549046 @default.
W2142556152 cites W1979080600 @default.
W2142556152 cites W1981170482 @default.
W2142556152 cites W1983782238 @default.
W2142556152 cites W1989528485 @default.
W2142556152 cites W1992945955 @default.
W2142556152 cites W1992961208 @default.
W2142556152 cites W1996038152 @default.
W2142556152 cites W2005008560 @default.
W2142556152 cites W2017345038 @default.
W2142556152 cites W2020372058 @default.
W2142556152 cites W2021619817 @default.
W2142556152 cites W2023591690 @default.
W2142556152 cites W2024469135 @default.
W2142556152 cites W2037535298 @default.
W2142556152 cites W2038840577 @default.
W2142556152 cites W2041848124 @default.
W2142556152 cites W2045195070 @default.
W2142556152 cites W2047993019 @default.
W2142556152 cites W2055043387 @default.
W2142556152 cites W2057455648 @default.
W2142556152 cites W2060002448 @default.
W2142556152 cites W2063511018 @default.
W2142556152 cites W2063806670 @default.
W2142556152 cites W2071388314 @default.
W2142556152 cites W2071500926 @default.
W2142556152 cites W2072683434 @default.
W2142556152 cites W2074872461 @default.
W2142556152 cites W2075369230 @default.
W2142556152 cites W2078270589 @default.
W2142556152 cites W2079724727 @default.
W2142556152 cites W2082425789 @default.
W2142556152 cites W2084882261 @default.
W2142556152 cites W2086286404 @default.
W2142556152 cites W2093481978 @default.
W2142556152 cites W2094162409 @default.
W2142556152 cites W2096484483 @default.
W2142556152 cites W2101272773 @default.
W2142556152 cites W2103935957 @default.
W2142556152 cites W2109321699 @default.
W2142556152 cites W2116978122 @default.
W2142556152 cites W2118233996 @default.
W2142556152 cites W2121323579 @default.
W2142556152 cites W2124809796 @default.
W2142556152 cites W2126796352 @default.
W2142556152 cites W2127290087 @default.
W2142556152 cites W2127760066 @default.
W2142556152 cites W2130197839 @default.
W2142556152 cites W2131174104 @default.
W2142556152 cites W2131473290 @default.
W2142556152 cites W2132629607 @default.
W2142556152 cites W2139901651 @default.
W2142556152 cites W2140472738 @default.
W2142556152 cites W2140765540 @default.
W2142556152 cites W2144288821 @default.
W2142556152 cites W2147993766 @default.
W2142556152 cites W2152265294 @default.
W2142556152 cites W2157611684 @default.
W2142556152 cites W2160066010 @default.
W2142556152 cites W2161471780 @default.
W2142556152 cites W2283151873 @default.
W2142556152 cites W2416135976 @default.
W2142556152 doi "https://doi.org/10.1021/jm400045y" @default.
W2142556152 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23442188" @default.
W2142556152 hasPublicationYear "2013" @default.
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