MALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevity

IL-17 is a pro-inflammatory molecule that can also regulate neural circuit function. Here the authors use C. elegans to show that the paracaspase MALT-1 lies downstream of IL-17 signaling and regulates many aspects of C. elegans biology, including escape behavior, associative learning, immunity and...

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Main Authors: Sean M. Flynn, Changchun Chen, Murat Artan, Stephen Barratt, Alastair Crisp, Geoffrey M. Nelson, Sew-Yeu Peak-Chew, Farida Begum, Mark Skehel, Mario de Bono
Format: Article
Language:English
Published: Nature Publishing Group 2020-04-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-020-15872-y
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spelling doaj-377402b6f41e4c2d90a5764edd0f5adf2021-05-11T08:24:40ZengNature Publishing GroupNature Communications2041-17232020-04-0111111510.1038/s41467-020-15872-yMALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevitySean M. Flynn0Changchun Chen1Murat Artan2Stephen Barratt3Alastair Crisp4Geoffrey M. Nelson5Sew-Yeu Peak-Chew6Farida Begum7Mark Skehel8Mario de Bono9Cell Biology Division, Medical Research Council Laboratory of Molecular BiologyCell Biology Division, Medical Research Council Laboratory of Molecular BiologyCell Biology Division, Medical Research Council Laboratory of Molecular BiologyCell Biology Division, Medical Research Council Laboratory of Molecular BiologyCell Biology Division, Medical Research Council Laboratory of Molecular BiologyCell Biology Division, Medical Research Council Laboratory of Molecular BiologyBiological Mass Spectrometry and Proteomics, Cell Biology Division, Medical Research Council Laboratory of Molecular BiologyBiological Mass Spectrometry and Proteomics, Cell Biology Division, Medical Research Council Laboratory of Molecular BiologyBiological Mass Spectrometry and Proteomics, Cell Biology Division, Medical Research Council Laboratory of Molecular BiologyCell Biology Division, Medical Research Council Laboratory of Molecular BiologyIL-17 is a pro-inflammatory molecule that can also regulate neural circuit function. Here the authors use C. elegans to show that the paracaspase MALT-1 lies downstream of IL-17 signaling and regulates many aspects of C. elegans biology, including escape behavior, associative learning, immunity and longevity.https://doi.org/10.1038/s41467-020-15872-y
collection DOAJ
language English
format Article
sources DOAJ
author Sean M. Flynn
Changchun Chen
Murat Artan
Stephen Barratt
Alastair Crisp
Geoffrey M. Nelson
Sew-Yeu Peak-Chew
Farida Begum
Mark Skehel
Mario de Bono
spellingShingle Sean M. Flynn
Changchun Chen
Murat Artan
Stephen Barratt
Alastair Crisp
Geoffrey M. Nelson
Sew-Yeu Peak-Chew
Farida Begum
Mark Skehel
Mario de Bono
MALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevity
Nature Communications
author_facet Sean M. Flynn
Changchun Chen
Murat Artan
Stephen Barratt
Alastair Crisp
Geoffrey M. Nelson
Sew-Yeu Peak-Chew
Farida Begum
Mark Skehel
Mario de Bono
author_sort Sean M. Flynn
title MALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevity
title_short MALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevity
title_full MALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevity
title_fullStr MALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevity
title_full_unstemmed MALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevity
title_sort malt-1 mediates il-17 neural signaling to regulate c. elegans behavior, immunity and longevity
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2020-04-01
description IL-17 is a pro-inflammatory molecule that can also regulate neural circuit function. Here the authors use C. elegans to show that the paracaspase MALT-1 lies downstream of IL-17 signaling and regulates many aspects of C. elegans biology, including escape behavior, associative learning, immunity and longevity.
url https://doi.org/10.1038/s41467-020-15872-y
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