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Dimerization Induced by C-Terminal 14–3–3 Binding Is Sufficient for BRAF Kinase Activation

Nicholas P. D. Liau, Avinashnarayan Venkatanarayan, John G. Quinn, Wilson Phung, Shiva Malek, S.G. Hymowitz, Jawahar Sudhamsu

2020Biochemistry43 citationsDOI

Abstract

The Ras-RAF-MEK-ERK signaling axis, commonly mutated in human cancers, is highly regulated to prevent aberrant signaling in healthy cells. One of the pathway modulators, 14-3-3, a constitutive dimer, induces RAF dimerization and activation by binding to a phosphorylated motif C-terminal to the RAF kinase domain. Recent work has suggested that a C-terminal "DTS" region in BRAF is necessary for this 14-3-3-mediated activation. We show that the catalytic activity and ATP binding affinity of the BRAF:14-3-3 complex is insensitive to the presence or absence of the DTS, while the ATP sites of both BRAF molecules are identical and available for binding. We also present a crystal structure of the apo BRAF:14-3-3 complex showing that the DTS is not required to attain the catalytically active conformation of BRAF. Rather, BRAF dimerization induced by 14-3-3 is the key step in activation, allowing the active BRAF:14-3-3 tetramer to achieve catalytic activity comparable to the constitutively active oncogenic BRAF V600E mutant.

Topics & Concepts

Terminal (telecommunication)KinaseChemistryCell biologyBiochemistryBiologyComputer scienceComputer networkMelanoma and MAPK Pathways14-3-3 protein interactionsCancer Mechanisms and Therapy