High-throughput, single-particle tracking reveals nested membrane domains that dictate KRasG12D diffusion and trafficking

Lee, Yerim; Phelps, Carey; Huang, Tao; Mostofian, Barmak; Wu, Lei; Zhang, Ying; Tao, Kai; Chang, Young Hwan; Stork, Philip J.S.; Gray, Joe W.; Zuckerman, Daniel M.; Nan, Xiaolin

doi:10.7554/elife.46393

Cited by 49 publications

(55 citation statements)

References 66 publications

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“…dimer through residue D113 in the loop 4 region could form a kinetic proofreading platform similar to that observed for the LAT/Grb2/SOS complex 28,46-48 . Biocondensates, consisting of concentrated multiprotein assemblies forming distinct fluid structures that separate from surrounding areas, are ubiquitous across signal transduction networks 49 . Furthermore, single particle tracking (SPT) experiments 50,51 , most recently coupled with photoactivated localization microscopy (SPT-PALM) and detailed trajectory analysis 52 , have shown that activated Ras proteins in live cells are found on the membrane in mobile and immobile phases, the latter being consistent with the predicted formation of large macromolecular assemblies that cannot freely diffuse on the membrane. Recent work with the transmembrane receptor LAT and its cytosolic binding partners Grb2 and the Ras guanine nucleotide exchange factor SOS, have shown that these proteins form polymer-like assemblies on supported lipid bilayers 46 , with restricted mobility.…”

Section: Simulations Of the Kras/craf-rbd Dimer On The Membranementioning

confidence: 83%

“…Other interactions with the membrane from within these condensates, for example involving membrane receptors 53 , SOS [54][55][56] or PLCg 57 , further restrict molecular mobility and may influence Ras. Increasing connectivity with dimerization of the Ras/Raf complex could allosterically prime the Galectin binding site on Raf-RBD, to form a multivalent protein complex on the membrane corresponding to the immobile species observed in the SPT-PALM experiments 52 . This platform of synchronized activated signaling proteins (Fig.…”

Section: Simulations Of the Kras/craf-rbd Dimer On The Membranementioning

confidence: 98%

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Raf promotes dimerization of the Ras G-domain with increased allosteric connections

Packer

Parker

Chung

et al. 2020

Preprint

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Ras dimerization is critical for Raf activation, yet Ras alone does not dimerize. Here we show that the Ras binding domain of Raf (Raf-RBD) induces robust Ras dimerization at low surface densities on supported lipid bilayers and, to a lesser extent, in solution as observed by size exclusion chromatography and confirmed by SAXS. Community network analysis based on molecular dynamics (MD) simulations show robust allosteric connections linking the two Raf-RBD D113 residues, located in the Galectin scaffold protein binding site of each Raf-RBD molecule and 85 Å apart on opposite ends of the dimer complex. Our results suggest that Raf-RBD binding and Ras dimerization are concerted events that lead to a high-affinity signaling complex at the membrane that we propose is an essential unit in the macromolecular assembly of higher order Ras/Raf/Galectin complexes important for signaling through the Ras/Raf/MEK/ERK pathway.

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Section: Simulations Of the Kras/craf-rbd Dimer On The Membranementioning

confidence: 83%

Section: Simulations Of the Kras/craf-rbd Dimer On The Membranementioning

confidence: 98%

Raf promotes dimerization of the Ras G-domain with increased allosteric connections

Packer

Parker

Chung

et al. 2020

Preprint

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“…The spatial mapping of the state coordinates showed that the slow and intermediate diffusion states cluster within nested nanoscopic domains of 200 nm and 70 nm for the intermediate and slow states, respectively [ 21 ], further confirming that RAS is exploring a hierarchical membrane structure. The formation of these states follows a nonequilibrium steady state where immobile KRAS molecules are endocytosed, and the endomembrane recycling system replenishes the fast-moving KRAS molecules.…”

Section: Membrane Organization Ras Dynamics and Ras Clusteringmentioning

confidence: 93%

“…Recently, work using improved imaging techniques and more photostable fluorescent tags indicates that KRAS membrane dynamics can be described by a three-state diffusion model ( Figure 4 A,B) [ 20 , 21 ]. In this model, KRAS4b diffusion in the plasma membrane is described by fast (~1 μm 2 /s), intermediate (~0.2 μm 2 /s) and slow (~0.05 μm 2 /s) diffusion states.…”

Section: Membrane Organization Ras Dynamics and Ras Clusteringmentioning

confidence: 99%

RAS Nanoclusters: Dynamic Signaling Platforms Amenable to Therapeutic Intervention

et al. 2021

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RAS proteins are mutated in approximately 20% of all cancers and are generally associated with poor clinical outcomes. RAS proteins are localized to the plasma membrane and function as molecular switches, turned on by partners that receive extracellular mitogenic signals. In the on-state, they activate intracellular signal transduction cascades. Membrane-bound RAS molecules segregate into multimers, known as nanoclusters. These nanoclusters, held together through weak protein–protein and protein–lipid associations, are highly dynamic and respond to cellular input signals and fluctuations in the local lipid environment. Disruption of RAS nanoclusters results in downregulation of RAS-mediated mitogenic signaling. In this review, we discuss the propensity of RAS proteins to display clustering behavior and the interfaces that are associated with these assemblies. Strategies to therapeutically disrupt nanocluster formation or the stabilization of signaling incompetent RAS complexes are discussed.

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“…The high-affinity Ras-Raf's RBD interaction, enhanced by CRD membrane attachment (Fang et al, 2020;Li et al, 2018aLi et al, , 2018bOkada et al, 1999;Sarkar and Garcia, 2020;Travers et al, 2018), shifts Raf's equilibrium toward the open state and interaction with Ras (Nussinov et al, 2019a). RBDs' interactions with spatially proximal Ras catalytic domains in Ras dimers or nanoclusters promote Raf's KD dimerization and activation (Holderfield et al, 2014;Lavoie et al, 2013;Lee et al, 2019;Muratcioglu et al, 2015Muratcioglu et al, , 2020. Active Raf phosphorylates MEK1/2 (MAPK kinase 1/2) (De Luca et al, 2012;Young et al, 2013), with signaling propagating down the mitogen-activated protein kinase (MAPK) pathway to activate extracellular signal-regulated kinase (ERK) and transcription factors, such as Elk-1 (Gao et al, 2019;, with the resulting expressed proteins entering the G 1 phase of the cell cycle, thereby linking the cellular environment to cell-cycle progression.…”

Section: Ras: An Overviewmentioning

confidence: 99%

Inhibition of Nonfunctional Ras

Nussinov

Jang

Gürsoy

et al. 2021

Cell Chemical Biology

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Intuitively, functional states should be targeted; not nonfunctional ones. So why could drugging the inactive K-Ras4B G12C work-but drugging the inactive kinase will likely not? The reason is the distinct oncogenic mechanisms. Kinase driver mutations work by stabilizing the active state and/or destabilizing the inactive state. Either way, oncogenic kinases are mostly in the active state. Ras driver mutations work by quelling its deactivation mechanisms, GTP hydrolysis, and nucleotide exchange. Covalent inhibitors that bind to the inactive GDP-bound K-Ras4B G12C conformation can thus work. By contrast, in kinases, allosteric inhibitors work by altering the active-site conformation to favor orthosteric drugs. From the translational standpoint this distinction is vital: it expedites effective pharmaceutical development and extends the drug classification based on the mechanism of action. Collectively, here we postulate that drug action relates to blocking the mechanism of activation, not to whether the protein is in the active or inactive state. BACKGROUND ll

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High-throughput, single-particle tracking reveals nested membrane domains that dictate KRasG12D diffusion and trafficking

Cited by 49 publications

References 66 publications

Raf promotes dimerization of the Ras G-domain with increased allosteric connections

Raf promotes dimerization of the Ras G-domain with increased allosteric connections

RAS Nanoclusters: Dynamic Signaling Platforms Amenable to Therapeutic Intervention

Inhibition of Nonfunctional Ras

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