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Higher-order assemblies in immune signaling: supramolecular complexes and phase separation

Shiyu Xia, Zhenhang Chen, Chen Shen, Tian‐Min Fu

2021Protein & Cell55 citationsDOIOpen Access PDF

Abstract

Signaling pathways in innate and adaptive immunity play vital roles in pathogen recognition and the functions of immune cells. Higher-order assemblies have recently emerged as a central principle that governs immune signaling and, by extension, cellular communication in general. There are mainly two types of higher-order assemblies: 1) ordered, solid-like large supramolecular complexes formed by stable and rigid protein-protein interactions, and 2) liquid-like phase-separated condensates formed by weaker and more dynamic intermolecular interactions. This review covers key examples of both types of higher-order assemblies in major immune pathways. By placing emphasis on the molecular structures of the examples provided, we discuss how their structural organization enables elegant mechanisms of signaling regulation.

Topics & Concepts

Supramolecular chemistryImmune systemIntermolecular forceBiologySignal transductionAcquired immune systemInnate immune systemOrder (exchange)Cell signalingCell biologyComputational biologyNanotechnologyChemistryMaterials scienceImmunologyMoleculeOrganic chemistryFinanceEconomicsRNA Research and SplicingRNA modifications and cancerRNA Interference and Gene Delivery
Higher-order assemblies in immune signaling: supramolecular complexes and phase separation | Litcius