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Structural basis for flagellin-induced NAIP5 activation

Bhaskar Paidimuddala, Jianhao Cao, Liman Zhang

2023Science Advances13 citationsDOIOpen Access PDF

Abstract

The NAIP (NLR family apoptosis inhibitory protein)/NLRC4 (NLR family CARD containing protein 4) inflammasome senses Gram-negative bacterial ligand. In the ligand-bound state, the winged helix domain of NAIP forms a steric clash with NLRC4 to open it up. However, how ligand binding activates NAIP is less clear. Here, we investigated the dynamics of the ligand-binding region of inactive NAIP5 and solved the cryo-EM structure of NAIP5 in complex with its specific ligand, FliC from flagellin, at 2.9-Å resolution. The structure revealed a “trap and lock” mechanism in FliC recognition, whereby FliC-D0 C is first trapped by the hydrophobic pocket of NAIP5, then locked in the binding site by ID (insertion domain) and C-terminal tail of NAIP5. The FliC-D0 N domain further inserts into ID to stabilize the complex. According to this mechanism, FliC triggers the conformational change of NAIP5 by bringing multiple flexible domains together.

Topics & Concepts

FlagellinNLRC4Ligand (biochemistry)Conformational changeBiophysicsProtein structurePlasma protein bindingBiologyHelix (gastropod)Steric effectsCell biologyChemistryInflammasomeStereochemistryBiochemistryReceptorCaspase 1EcologySnailEndoplasmic Reticulum Stress and DiseaseTrace Elements in HealthLipid Membrane Structure and Behavior
Structural basis for flagellin-induced NAIP5 activation | Litcius