Allosteric coupling asymmetry mediates paradoxical activation of BRAF by type II inhibitors

Author:

Rasmussen Damien M12ORCID,Semonis Manny M1,Greene Joseph T1,Muretta Joseph M2,Thompson Andrew R2,Toledo Ramos Silvia1,Thomas David D2ORCID,Pomerantz William CK3,Freedman Tanya S145ORCID,Levinson Nicholas M15ORCID

Affiliation:

1. Department of Pharmacology, University of Minnesota

2. Department of Biochemistry, Molecular Biology, and Biophysics, University of Minnesota

3. Department of Chemistry, University of Minnesota

4. Center for Immunology, University of Minnesota

5. Masonic Cancer Center, University of Minnesota

Abstract

The type II class of RAF inhibitors currently in clinical trials paradoxically activate BRAF at subsaturating concentrations. Activation is mediated by induction of BRAF dimers, but why activation rather than inhibition occurs remains unclear. Using biophysical methods tracking BRAF dimerization and conformation, we built an allosteric model of inhibitor-induced dimerization that resolves the allosteric contributions of inhibitor binding to the two active sites of the dimer, revealing key differences between type I and type II RAF inhibitors. For type II inhibitors the allosteric coupling between inhibitor binding and BRAF dimerization is distributed asymmetrically across the two dimer binding sites, with binding to the first site dominating the allostery. This asymmetry results in efficient and selective induction of dimers with one inhibited and one catalytically active subunit. Our allosteric models quantitatively account for paradoxical activation data measured for 11 RAF inhibitors. Unlike type II inhibitors, type I inhibitors lack allosteric asymmetry and do not activate BRAF homodimers. Finally, NMR data reveal that BRAF homodimers are dynamically asymmetric with only one of the subunits locked in the active αC-in state. This provides a structural mechanism for how binding of only a single αC-in inhibitor molecule can induce potent BRAF dimerization and activation.

Funder

National Cancer Institute

National Institute of General Medical Sciences

American Cancer Society – Kirby Foundation

National Institute of Arthritis and Musculoskeletal and Skin Diseases

Publisher

eLife Sciences Publications, Ltd

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