Thioredoxin shapes the C. elegans sensory response to Pseudomonas produced nitric oxide

Thioredoxin shapes the C. elegans sensory response to Pseudomonas produced nitric oxide

Nitric oxide (NO) is released into the air by NO-producing organisms; however, it is unclear if animals utilize NO as a sensory cue. We show that C. elegans avoids Pseudomonas aeruginosa (PA14) in part by detecting PA14-produced NO. PA14 mutants deficient for NO production fail to elicit avoidance a...

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Bibliographic Details
Main Authors: Yingsong Hao, Wenxing Yang, Jing Ren, Qi Hall, Yun Zhang, Joshua M Kaplan
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2018-07-01
Series:eLife
Subjects:
nitric oxide
pseudomonas aeruginosa
thioredoxin
DAF-11
TAX-4
Online Access:https://elifesciences.org/articles/36833
Description
Summary:Nitric oxide (NO) is released into the air by NO-producing organisms; however, it is unclear if animals utilize NO as a sensory cue. We show that C. elegans avoids Pseudomonas aeruginosa (PA14) in part by detecting PA14-produced NO. PA14 mutants deficient for NO production fail to elicit avoidance and NO donors repel worms. PA14 and NO avoidance are mediated by a chemosensory neuron (ASJ) and these responses require receptor guanylate cyclases and cyclic nucleotide gated ion channels. ASJ exhibits calcium increases at both the onset and removal of NO. These NO-evoked ON and OFF calcium transients are affected by a redox sensing protein, TRX-1/thioredoxin. TRX-1’s trans-nitrosylation activity inhibits the ON transient whereas TRX-1’s de-nitrosylation activity promotes the OFF transient. Thus, C. elegans exploits bacterially produced NO as a cue to mediate avoidance and TRX-1 endows ASJ with a bi-phasic response to NO exposure.
ISSN:2050-084X

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