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Phase separation on cell surface facilitates bFGF signal transduction with heparan sulphate

Song Xue, Fan Zhou, Tian Zhao, Huimin Zhao, Xuewei Wang, Long Chen, Jin‐Ping Li, Shizhong Luo

2022Nature Communications72 citationsDOIOpen Access PDF

Abstract

Liquid-liquid phase separation (LLPS) plays important roles in various cellular processes, facilitating membrane-less organelles construction, chromatin condensation, signal transduction on inner membrane and many other processes. Current perception is that LLPS relies on weak multivalent interactions and crowded environments intracellularly. In this study, we demonstrate that heparan sulfate can serve as a platform to induce the phase separation of basic fibroblast growth factor on cell surface. The phase separation model provides an alternative mechanism how bFGF is enriched to its receptors, therefore triggering the signaling transduction. The research provides insights on the mechanism how growth factors can be recruited to cell surface by heparan sulfate and execute their functions, extending people's view on phase separation from intracellular to extracellular proteins at cellular level.

Topics & Concepts

Signal transductionHeparan sulfateCell biologyIntracellularCellCell surface receptorFibroblast growth factorCell membraneTransduction (biophysics)OrganelleChemistryExtracellularBiophysicsReceptorBiologyBiochemistryRNA Research and SplicingFibroblast Growth Factor ResearchConnective tissue disorders research
Phase separation on cell surface facilitates bFGF signal transduction with heparan sulphate | Litcius