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Thermodynamic modulation of gephyrin condensation by inhibitory synapse components

G.J. Lee, Seungjoon Kim, Da‐Eun Hwang, Yu‐Gon Eom, Gyubin Jang, Hye Yoon Park, Jeong‐Mo Choi, Jaewon Ko, Yongdae Shin

2024Proceedings of the National Academy of Sciences16 citationsDOIOpen Access PDF

Abstract

Phase separation drives compartmentalization of intracellular contents into various biomolecular condensates. Individual condensate components are thought to differentially contribute to the organization and function of condensates. However, how intermolecular interactions among constituent biomolecules modulate the phase behaviors of multicomponent condensates remains unclear. Here, we used core components of the inhibitory postsynaptic density (iPSD) as a model system to quantitatively probe how the network of intra- and intermolecular interactions defines the composition and cellular distribution of biomolecular condensates. We found that oligomerization-driven phase separation of gephyrin, an iPSD-specific scaffold, is critically modulated by an intrinsically disordered linker region exhibiting minimal homotypic attractions. Other iPSD components, such as neurotransmitter receptors, differentially promote gephyrin condensation through distinct binding modes and affinities. We further demonstrated that the local accumulation of scaffold-binding proteins at the cell membrane promotes the nucleation of gephyrin condensates in neurons. These results suggest that in multicomponent systems, the extent of scaffold condensation can be fine-tuned by scaffold-binding factors, a potential regulatory mechanism for self-organized compartmentalization in cells.

Topics & Concepts

GephyrinScaffold proteinCompartmentalization (fire protection)BiophysicsNeurotransmitter receptorChemistryLinkerInhibitory postsynaptic potentialNucleationScaffoldNanotechnologyCell biologyReceptorMaterials scienceBiologyBiochemistrySignal transductionNeuroscienceMedicineAmino acidGlycine receptorBiomedical engineeringOperating systemGlycineEnzymeOrganic chemistryComputer scienceRNA Research and SplicingProtein Structure and DynamicsPhotosynthetic Processes and Mechanisms