2020
DOI: 10.1021/acs.biochem.0c00598
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Identification and Characterization of a B-Raf Kinase α-Helix Critical for the Activity of MEK Kinase in MAPK Signaling

Abstract: In the MAPK pathway, an oncogenic V600E mutation in B-Raf kinase causes the enzyme to be constitutively active, leading to aberrantly high phosphorylation levels of its downstream effectors, MEK and ERK kinases. The V600E mutation in B-Raf accounts for more than half of all melanomas and ~3% of all cancers and many drugs target the ATP-binding site of the enzyme for its inhibition. Since B-Raf can develop resistance against these drugs and such drugs can induce paradoxical activation, drugs that target alloste… Show more

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Cited by 5 publications
(8 citation statements)
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“…First, most crystal structures (except for 6U2H) had lower B -factor values around the αG-helix, particularly those crystal structures of Raf/MEK dimers. The αG-helix is important in B-Raf/MEK binding [84] , so we would expect these residues to be more flexible in monomers. Indeed, previous simulations of monomeric B-Raf with an empty ligand binding pocket have found a possible active-inactive transition state in which this helix is partially unfolded [45] .…”
Section: Resultsmentioning
confidence: 99%
“…First, most crystal structures (except for 6U2H) had lower B -factor values around the αG-helix, particularly those crystal structures of Raf/MEK dimers. The αG-helix is important in B-Raf/MEK binding [84] , so we would expect these residues to be more flexible in monomers. Indeed, previous simulations of monomeric B-Raf with an empty ligand binding pocket have found a possible active-inactive transition state in which this helix is partially unfolded [45] .…”
Section: Resultsmentioning
confidence: 99%
“…First, most crystal structures (except for 6U2H) had lower B -factor values around the αG-helix, particularly those crystal structures of Raf/MEK dimers. The αG-helix is important in B-Raf/MEK binding,[84] so we would expect these residues to be more flexible in monomers. Indeed, previous simulations of monomeric B-Raf with an empty ligand binding pocket have found a possible active-inactive transition state in which this helix is partially unfolded.…”
Section: Resultsmentioning
confidence: 99%
“…41 In contrast, the active sites of the kinases BRAF, MEK2, and PDGFRA have neutral electrostatic characteristics. [42][43][44] JAK, AKT1, and AKT2 have positively charged binding sites, making them attractive to negatively charged ligands. [45][46][47] These electrostatic properties have signicant implications for the affinities of compounds 4a and 4b.…”
Section: Molecular Dockingmentioning
confidence: 99%