KRAS interaction with RAF1 RAS-binding domain and cysteine-rich domain provides insights into RAS-mediated RAF activation

Timothy H. Tran; Albert H. Chan; Lucy C. Young; Lakshman Bindu; Chris Neale; Simon Messing; Srisathiyanarayanan Dharmaiah; Troy Taylor; John-Paul Denson; Dominic Esposito; Dwight V. Nissley; Andrew G. Stephen; Frank McCormick; Dhirendra K. Simanshu

doi:10.1038/s41467-021-21422-x

KRAS interaction with RAF1 RAS-binding domain and cysteine-rich domain provides insights into RAS-mediated RAF activation

Timothy H. Tran(Leidos (United States)), Albert H. Chan(Leidos (United States)), Lucy C. Young(University of California, San Francisco), Lakshman Bindu(Leidos (United States)), Chris Neale(Los Alamos National Laboratory), Simon Messing(Leidos (United States)), Srisathiyanarayanan Dharmaiah(Leidos (United States)), Troy Taylor(Leidos (United States)), John-Paul Denson(Leidos (United States)), Dominic Esposito(Leidos (United States)), Dwight V. Nissley(Leidos (United States)), Andrew G. Stephen(Leidos (United States)), Frank McCormick(Leidos (United States)), Dhirendra K. Simanshu(Leidos (United States))

Nature Communications

February 19, 2021

10.1038/s41467-021-21422-x

Cited by 249Open Access

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Abstract

The first step of RAF activation involves binding to active RAS, resulting in the recruitment of RAF to the plasma membrane. To understand the molecular details of RAS-RAF interaction, we present crystal structures of wild-type and oncogenic mutants of KRAS complexed with the RAS-binding domain (RBD) and the membrane-interacting cysteine-rich domain (CRD) from the N-terminal regulatory region of RAF1. Our structures reveal that RBD and CRD interact with each other to form one structural entity in which both RBD and CRD interact extensively with KRAS. Mutations at the KRAS-CRD interface result in a significant reduction in RAF1 activation despite only a modest decrease in binding affinity. Combining our structures and published data, we provide a model of RAS-RAF complexation at the membrane, and molecular insights into RAS-RAF interaction during the process of RAS-mediated RAF activation.

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