B-Raf protein kinase, which is a key signaling molecule in the RAS-RAF-MEK-ERK signaling pathway, plays an important role in many cancers. The B-Raf V600E mutation represents the most frequent oncogenic kinase mutation known and is responsible for increased kinase activity in approximately 7% of all human cancers, establishing B-Raf as an important therapeutic target for inhibition. Through the use of an iterative program that utilized a chemocentric approach and a rational structure based design, we have developed novel, potent, and specific DFG-out allosteric inhibitors of B-Raf kinase. Here, we present efficient and versatile chemistry that utilizes a key one pot, [3+2] cycloaddition reaction to obtain highly substituted imidazoles and their application in the design of allosteric B-Raf inhibitors. Inhibitors based on this scaffold display subnanomolar potency and a favorable kinase profile.
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