Litcius/Paper detail

TLR3 forms a highly organized cluster when bound to a poly(I:C) RNA ligand

Chan Lim, Yoon Ha Jang, Ga Young Lee, Gu Min Han, Hye Jin Jeong, Ji Won Kim, Jie‐Oh Lee

2022Nature Communications56 citationsDOIOpen Access PDF

Abstract

Toll-like Receptor 3 (TLR3) initiates a potent anti-viral immune response by binding to double-stranded RNA ligands. Previous crystallographic studies showed that TLR3 forms a homodimer when bound to a 46-base pair RNA ligand. However, this short RNA fails to initiate a robust immune response. To obtain structural insights into the length dependency of TLR3 ligands, we determine the cryo-electron microscopy structure of full-length TLR3 in a complex with a synthetic RNA ligand with an average length of ~400 base pairs. In the structure, the dimeric TLR3 units are clustered along the double-stranded RNA helix in a highly organized and cooperative fashion with a uniform inter-dimer spacing of 103 angstroms. The intracellular and transmembrane domains are dispensable for the clustering because their deletion does not interfere with the cluster formation. Our structural observation suggests that ligand-induced clustering of TLR3 dimers triggers the ordered assembly of intracellular signaling adaptors and initiates a robust innate immune response.

Topics & Concepts

RNATLR3Ligand (biochemistry)IntracellularInnate immune systemDimerCell biologyChemistryBase pairTransmembrane proteinBiologyRiboswitchBiophysicsReceptorBiochemistryToll-like receptorGeneNon-coding RNAOrganic chemistryImmune Response and Inflammationinterferon and immune responsesInfluenza Virus Research Studies