New insights into Raf regulation from structural analyses

BRAF is a highly regulated protein kinase that controls cell fate in animal cells. Recent structural analyses have revealed how active and inactive forms of BRAF bind to dimers of the scaffold protein 14-3-3. Inactive BRAF binds to 14-3-3 as a monomer and is held in an inactive conformation by interactions with ATP and the substrate kinase MEK, a striking example of enzyme inhibition by substrate binding. A change in the phosphorylation state of BRAF shifts the stoichiometry of the BRAF:14-3-3 complex from 1:2 to 2:2, resulting in stabilization of the active dimeric form of the kinase. These new findings uncover unexpected features of the regulatory mechanisms underlying Raf biology and help explain the paradoxical activation of Raf by small-molecule inhibitors.

Automated summary

BRAF is a crucial protein kinase that regulates cell fate in animal cells. Recent studies have shown how active and inactive forms of BRAF interact with the protein 14-3-3, revealing new insights into its regulatory mechanisms. Changes in the phosphorylation state of BRAF alter its complex composition, stabilizing the active dimeric form of the kinase.