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The force-dependent filamin A–G3BP1 interaction regulates phase-separated stress granule formation

Ziyi Feng, Zhenfeng Mao, Ziwei Yang, Xiaowei Liu, Fumihiko Nakamura

2023Journal of Cell Science15 citationsDOIOpen Access PDF

Abstract

Filamin A (FLNA) is an actin crosslinking protein that mediates mechanotransduction. External and internal mechanical forces, through the actin cytoskeleton, can induce conformational changes of the FLNA molecule to expose cryptic binding sites for its binding partners. Here, we identified Ras GTPase-activating protein SH3 domain-binding protein 1 (G3BP1) as a new FLNA mechanobinding partner. Unlike other FLNA binding partners to the mechanosensing domain repeat 21 (R21), G3BP1 requires an additional neighboring repeat R22 to interact. We demonstrated that their interaction occurs in the cytosol of living cells in an actin polymerization-dependent manner. We also mapped the FLNA-binding site on G3BP1 and found that a F360A point mutation in the RNA recognition motif disrupts the interaction. RNA interfered with the FLNA-G3BP1 interaction, and FLNA did not localize in RNA-rich stress granules (SGs). Disruption of the interaction was sufficient to promote phase-separated SG formation, and arsenite treatment further stimulated the formation of SGs. Taken together, these data identify G3BP1 as a new mechanobinding protein that interacts with the FLNA mechanosensing domain R21 and suggest that SG formation is partially regulated by mechanical force.

Topics & Concepts

FLNAFilaminBiologyCell biologyPlasma protein bindingStress granuleActinRNA-binding proteinCytoskeletonRNAGeneticsMessenger RNATranslation (biology)CellGeneCellular Mechanics and InteractionsNuclear Structure and FunctionRNA Research and Splicing
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