4.8 Article

Structure and dynamics of Toll immunoreceptor activation in the mosquito Aedes aegypti

Journal

NATURE COMMUNICATIONS
Volume 13, Issue 1, Pages -

Publisher

NATURE PORTFOLIO
DOI: 10.1038/s41467-022-32690-6

Keywords

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Funding

  1. New Investigator grant from the Medical Research Council [MR/P02260X/1]
  2. Wellcome Trust Investigator Award [WT100321/z/12/Z]

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This study structurally characterizes a duplicated pair of Toll immunoreceptors and the cytokine ligand Spaetzle1C in Aedes aegypti, shedding light on their dose-dependent function and activation mechanism. The researchers also discover that Spaetzle1C has a unique transcriptional signature and controls genes involved in innate immunity, metabolism, and tissue regeneration. These findings contribute to our understanding of the mechanisms of viral resistance and host-pathogen tolerance.
Aedes aegypti can act as a vector for viral pathogens but the mechanism of viral resistance and evolving host-pathogen tolerance are poorly understood. Here the authors structurally characterise a duplicated pair of interacting Toll immunoreceptors and the cytokine ligand Spaetzle1C and show their dose-dependent function and mechanism of activation. Aedes aegypti has evolved to become an efficient vector for arboviruses but the mechanisms of host-pathogen tolerance are unknown. Immunoreceptor Toll and its ligand Spaetzle have undergone duplication which may allow neofunctionalization and adaptation. Here we present cryo-EM structures and biophysical characterisation of low affinity Toll5A complexes that display transient but specific interactions with Spaetzle1C, forming asymmetric complexes, with only one ligand clearly resolved. Loop structures of Spaetzle1C and Toll5A intercalate, temporarily bridging the receptor C-termini to promote signalling. By contrast unbound receptors form head-to-head homodimers that keep the juxtamembrane regions far apart in an inactive conformation. Interestingly the transcriptional signature of Spaetzle1C differs from other Spaetzle cytokines and controls genes involved in innate immunity, metabolism and tissue regeneration. Taken together our results explain how upregulation of Spaetzle1C in the midgut and Toll5A in the salivary gland shape the concomitant immune response.

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