About: Modeling Bone Marrow Toxicity Using Kinase Structural Motifs and the Inhibition Profiles of Small Molecular Kinase Inhibitors

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Attributs	Valeurs
type	work Article
Is Part Of	http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/w
Subject	mathematical modeling bone marrow toxicity support vector machines small molecule kinase inhibitors SAFETY EVALUATION
Title	Modeling Bone Marrow Toxicity Using Kinase Structural Motifs and the Inhibition Profiles of Small Molecular Kinase Inhibitors
has manifestation of work	http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/m/print http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/m/web
related by	http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/authorship/3 http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/authorship/6 http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/authorship/9 http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/authorship/2 http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/authorship/8 http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/authorship/4 http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/authorship/5 http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/authorship/7 http://hub.abes.fr/oup/periodical/toxsci/2010/volume_118/issue_1/101093toxscikfq258/authorship/1
Author	Olaharski Andrew J. Bitter Hans Singer Thomas Kondru Rama Zabka Tanja S. Gonzaludo Nina Lin Henry Goldstein David M. Kolaja Kyle
Abstract	The cellular function of kinases combined with the difficulty of designing selective small molecule kinase inhibitors (SMKIs) poses a challenge for drug development. The late-stage attrition of SMKIs could be lessened by integrating safety information of kinases into the lead optimization stage of drug development. Herein, a mathematical model to predict bone marrow toxicity (BMT) is presented which enables the rational design of SMKIs away from this safety liability. A specific example highlights how this model identifies critical structural modifications to avoid BMT. The model was built using a novel algorithm, which selects 19 representative kinases from a panel of 277 based upon their ATP-binding pocket sequences and ability to predict BMT in vivo for 48 SMKIs. A support vector machine classifier was trained on the selected kinases and accurately predicts BMT with 74% accuracy. The model provides an efficient method for understanding SMKI-induced in vivo BMT earlier in drug discovery.
article type	research-article
is part of this journal	Toxicological Sciences

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