2012
DOI: 10.2174/138920012799362873
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Computational Insights for the Discovery of Non-ATP Competitive Inhibitors of MAP Kinases

Abstract: Due to their role in cellular signaling mitogen activated protein (MAP) kinases represent targets of pharmaceutical interest. However, the majority of known MAP kinase inhibitors compete with cellular ATP and target an ATP binding pocket that is highly conserved in the 500 plus representatives of the human protein kinase family. Here we review progress toward the development of non-ATP competitive MAP kinase inhibitors for the extracellular signal regulated kinases (ERK1/2), the c-jun N-terminal kinases (JNK1/… Show more

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Cited by 12 publications
(21 citation statements)
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“…In the past two decades, tremendous efforts have been made by both pharmaceutical companies and academic groups to identify and develop new potent and selective p38 α MAPK inhibitors, some of which have reached different stage of clinical trials. Furthermore, their mechanisms of action, kinase selectivity, crystallographic and computational studies, and pharmacological profiles have been extensively reviewed in the literature . Notwithstanding these promising results, multiple attempts to generate clinically useful p38 α MAPK inhibitors have generally failed, either due to toxicity or inadequate efficacy.…”
Section: Methodsmentioning
confidence: 99%
“…In the past two decades, tremendous efforts have been made by both pharmaceutical companies and academic groups to identify and develop new potent and selective p38 α MAPK inhibitors, some of which have reached different stage of clinical trials. Furthermore, their mechanisms of action, kinase selectivity, crystallographic and computational studies, and pharmacological profiles have been extensively reviewed in the literature . Notwithstanding these promising results, multiple attempts to generate clinically useful p38 α MAPK inhibitors have generally failed, either due to toxicity or inadequate efficacy.…”
Section: Methodsmentioning
confidence: 99%
“…63 Combining the polarizable AMOEBA force field with electrostatics evaluated using PME has been shown to improve macromolecular models from X-ray crystallography refinement in a variety of contexts. 64,77,[238][239][240] At high resolution (~1 Å or lower), the information contained within a polarizable atomic multipole force field can be used to formulate the electron density of the scattering model ( ), in addition to contributing chemical restraints ( ). 64,238 The importance of the prior chemical information contained in a polarizable force field is most significant when positioning parts of the model that are not discernable from the experimental electron density, as in the orientation of water hydrogen atoms 239 or secondary structure elements for mid-to-low resolution data sets (~3-4 Å).…”
Section: Continuum Solvents For Polarizable Biomolecular Solutesmentioning
confidence: 99%
“…The crystal structure of the marketed kinase inhibitors with the drug molecule in situ has been solved and modelling techniques and experimental work are pursuing non‐competitive inhibitors (Schnieders et al ., ). The ability to bring together genome analysis of kinases and their mutations with molecular biology, cell biochemistry, crystallography, fragment‐based drug design and direct measurement of kinase inhibition in biopsies from the human tumour was a reflection of the growing power of translational medicine at the convergence point of many disciplines (Schwartz and Murray, ).…”
Section: Fortunately the Era Of Brickdust Had Its Successes Particulmentioning
confidence: 97%