William J. Pitts scite author profile

We further demonstrate that the two compounds bind to ⌬N3-S218E/S222D MEK in a mutually exclusive fashion, suggesting that they may share a common or overlapping binding site(s). Quantitative evaluation of the steady state kinetics of MEK inhibition by these compounds reveals that U0126 has approximately 100-fold higher affinity for ⌬N3-S218E/S222D MEK than does PD098059. We further tested the effects of these compounds on the activity of wild type MEK isolated after activation from stimulated cells. Surprisingly, we observe a significant diminution in affinity of both compounds for wild type MEK as compared with the ⌬N3-S218E/S222D mutant enzyme. These results suggest that the affinity of both compounds is mediated by subtle conformational differences between the two activated MEK forms. The MEK affinity of U0126, its selectivity for MEK over other kinases, and its cellular efficacy suggest that this compound will serve as a powerful tool for in vitro and cellular investigations of mitogen-activated protein kinase-mediated signal transduction.

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MEK inhibitors: The chemistry and biological activity of U0126, its analogs, and cyclization products

Duncia

Santella

Higley

et al. 1998

Bioorganic & Medicinal Chemistry Letters

380

259

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William J. Pitts

Identification of a Novel Inhibitor of Mitogen-activated Protein Kinase Kinase

MEK inhibitors: The chemistry and biological activity of U0126, its analogs, and cyclization products

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