Litcius/Paper detail

Dual oxidase enables insect gut symbiosis by mediating respiratory network formation

Seonghan Jang, Peter Mergaert, Tsubasa Ohbayashi, Kota Ishigami, Shuji Shigenobu, Hideomi Itoh, Yoshitomo Kikuchi

2021Proceedings of the National Academy of Sciences61 citationsDOIOpen Access PDF

Abstract

Instead, we found that the expression of Duox is tracheae-specific and its down-regulation by RNAi results in the loss of dityrosine cross-links in the tracheal protein matrix and a collapse of the respiratory system. We further demonstrated that the establishment of symbiosis is a strong oxygen sink triggering the formation of an extensive network of tracheae enveloping the midgut symbiotic organ as well as other organs, and that tracheal breakdown by Duox RNAi provokes a disruption of the gut symbiosis. Down-regulation of the hypoxia-responsive transcription factor Sima or the regulators of tracheae formation Trachealess and Branchless produces similar phenotypes. Thus, in addition to known roles in immunity and in the formation of dityrosine networks in diverse extracellular matrices, Duox is also a crucial enzyme for tracheal integrity, which is crucial to sustain mutualistic symbionts and gut homeostasis. We expect that this is a conserved function in insects.

Topics & Concepts

BiologySymbiosisInsectReactive oxygen speciesCell biologyMatrix metalloproteinaseOxidase testMicrobiologyBiochemistryEnzymeBacteriaBotanyGeneticsInsect symbiosis and bacterial influencesMosquito-borne diseases and controlStudies on Chitinases and Chitosanases