Literature DB >> 29768179

Intestinal Epithelial Wnt Signaling Mediates Acetylcholine-Triggered Host Defense against Infection.

Sid Ahmed Labed1, Khursheed A Wani2, Sakthimala Jagadeesan3, Abdul Hakkim3, Mehran Najibi1, Javier Elbio Irazoqui4.   

Abstract

Regulated antimicrobial peptide expression in the intestinal epithelium is key to defense against infection and to microbiota homeostasis. Understanding the mechanisms that regulate such expression is necessary for understanding immune homeostasis and inflammatory disease and for developing safe and effective therapies. We used Caenorhabditis elegans in a preclinical approach to discover mechanisms of antimicrobial gene expression control in the intestinal epithelium. We found an unexpected role for the cholinergic nervous system. Infection-induced acetylcholine release from neurons stimulated muscarinic signaling in the epithelium, driving downstream induction of Wnt expression in the same tissue. Wnt induction activated the epithelial canonical Wnt pathway, resulting in the expression of C-type lectin and lysozyme genes that enhanced host defense. Furthermore, the muscarinic and Wnt pathways are linked by conserved transcription factors. These results reveal a tight connection between the nervous system and the intestinal epithelium, with important implications for host defense, immune homeostasis, and cancer.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Caenorhabditis elegans; Staphylococcus aureus; Wnt; cholinergic; host defense; infection; innate immunity; intestinal epithelium; muscarinic; nervous system

Mesh:

Substances:

Year:  2018        PMID: 29768179      PMCID: PMC5959051          DOI: 10.1016/j.immuni.2018.04.017

Source DB:  PubMed          Journal:  Immunity        ISSN: 1074-7613            Impact factor:   31.745


  88 in total

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Authors:  Ben Lehner; Julia Tischler; Andrew G Fraser
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4.  Goalpha and diacylglycerol kinase negatively regulate the Gqalpha pathway in C. elegans.

Authors:  K G Miller; M D Emerson; J B Rand
Journal:  Neuron       Date:  1999-10       Impact factor: 17.173

5.  Facilitation of synaptic transmission by EGL-30 Gqalpha and EGL-8 PLCbeta: DAG binding to UNC-13 is required to stimulate acetylcholine release.

Authors:  M R Lackner; S J Nurrish; J M Kaplan
Journal:  Neuron       Date:  1999-10       Impact factor: 17.173

6.  Elk-3 is a KLF4-regulated gene that modulates the phagocytosis of bacteria by macrophages.

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Review 7.  Muscarinic acetylcholine receptors: mutant mice provide new insights for drug development.

Authors:  Jürgen Wess; Richard M Eglen; Dinesh Gautam
Journal:  Nat Rev Drug Discov       Date:  2007-09       Impact factor: 84.694

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Authors:  Javier E Irazoqui; Emily R Troemel; Rhonda L Feinbaum; Lyly G Luhachack; Brent O Cezairliyan; Frederick M Ausubel
Journal:  PLoS Pathog       Date:  2010-07-01       Impact factor: 6.823

9.  Cholinergic muscarinic receptor activation augments murine intestinal epithelial cell proliferation and tumorigenesis.

Authors:  Zhongsheng Peng; Jonathon Heath; Cinthia Drachenberg; Jean-Pierre Raufman; Guofeng Xie
Journal:  BMC Cancer       Date:  2013-04-24       Impact factor: 4.430

10.  Lifespan regulation by evolutionarily conserved genes essential for viability.

Authors:  Sean P Curran; Gary Ruvkun
Journal:  PLoS Genet       Date:  2007-02-27       Impact factor: 5.917
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Journal:  Cell       Date:  2019-12-05       Impact factor: 41.582

Review 3.  Neural control of behavioral and molecular defenses in C. elegans.

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Review 4.  C. elegans: out on an evolutionary limb.

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Review 5.  Nervous system control of intestinal host defense in C. elegans.

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6.  GABAergic synapses suppress intestinal innate immunity via insulin signaling in Caenorhabditis elegans.

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7.  A conserved cysteine-based redox mechanism sustains TFEB/HLH-30 activity under persistent stress.

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Review 9.  A unifying hypothesis on the central role of reactive oxygen species in bacterial pathogenesis and host defense in C. elegans.

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10.  Muscarinic receptor M3 contributes to intestinal stem cell maintenance via EphB/ephrin-B signaling.

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