Login / Signup

Direct Observation of Membrane-Associated H-Ras in the Native Cellular Environment by In-Cell 19 F-NMR Spectroscopy.

Masaomi IkariHiromasa YagiTakuma KasaiKohsuke InomataMasahiro ItoKae HiguchiNatsuko MatsudaYutaka ItoTakanori Kigawa
Published in: JACS Au (2023)
Ras acts as a molecular switch to control intracellular signaling on the plasma membrane (PM). Elucidating how Ras associates with PM in the native cellular environment is crucial for understanding its control mechanism. Here, we used in-cell nuclear magnetic resonance (NMR) spectroscopy combined with site-specific 19 F-labeling to explore the membrane-associated states of H-Ras in living cells. The site-specific incorporation of p -trifluoromethoxyphenylalanine (OCF 3 Phe) at three different sites of H-Ras, i.e., Tyr32 in switch I, Tyr96 interacting with switch II, and Tyr157 on helix α5, allowed the characterization of their conformational states depending on the nucleotide-bound states and an oncogenic mutational state. Exogenously delivered 19 F-labeled H-Ras protein containing a C-terminal hypervariable region was assimilated via endogenous membrane-trafficking, enabling proper association with the cell membrane compartments. Despite poor sensitivity of the in-cell NMR spectra of membrane-associated H-Ras, the Bayesian spectral deconvolution identified distinct signal components on three 19 F-labeled sites, thus offering the conformational multiplicity of H-Ras on the PM. Our study may be helpful in elucidating the atomic-scale picture of membrane-associated proteins in living cells.
Keyphrases