Divergent signaling requirements of dSARM in injury-induced degeneration and developmental glial phagocytosis

Elucidating signal transduction mechanisms of innate immune pathways is essential to defining how they elicit distinct cellular responses. Toll-like receptors (TLR) signal through their cytoplasmic TIR domains which bind other TIR domain-containing adaptors. dSARM/SARM1 is one such TIR domain adapto...

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Autores principales: Herrmann, Kelsey A., Liu, Yizhou, Llobet-Rosell, Arnau, McLaughlin, Colleen N., Neukomm, Lukas J., Coutinho-Budd, Jaeda C., Broihier, Heather T.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2022
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9223396/
https://www.ncbi.nlm.nih.gov/pubmed/35737721
http://dx.doi.org/10.1371/journal.pgen.1010257
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author Herrmann, Kelsey A.
Liu, Yizhou
Llobet-Rosell, Arnau
McLaughlin, Colleen N.
Neukomm, Lukas J.
Coutinho-Budd, Jaeda C.
Broihier, Heather T.
author_facet Herrmann, Kelsey A.
Liu, Yizhou
Llobet-Rosell, Arnau
McLaughlin, Colleen N.
Neukomm, Lukas J.
Coutinho-Budd, Jaeda C.
Broihier, Heather T.
author_sort Herrmann, Kelsey A.
collection PubMed
description Elucidating signal transduction mechanisms of innate immune pathways is essential to defining how they elicit distinct cellular responses. Toll-like receptors (TLR) signal through their cytoplasmic TIR domains which bind other TIR domain-containing adaptors. dSARM/SARM1 is one such TIR domain adaptor best known for its role as the central axon degeneration trigger after injury. In degeneration, SARM1’s domains have been assigned unique functions: the ARM domain is auto-inhibitory, SAM-SAM domain interactions mediate multimerization, and the TIR domain has intrinsic NAD(+) hydrolase activity that precipitates axonal demise. Whether and how these distinct functions contribute to TLR signaling is unknown. Here we show divergent signaling requirements for dSARM in injury-induced axon degeneration and TLR-mediated developmental glial phagocytosis through analysis of new knock-in domain and point mutations. We demonstrate intragenic complementation between reciprocal pairs of domain mutants during development, providing evidence for separability of dSARM functional domains in TLR signaling. Surprisingly, dSARM’s NAD(+) hydrolase activity is strictly required for both degenerative and developmental signaling, demonstrating that TLR signal transduction requires dSARM’s enzymatic activity. In contrast, while SAM domain-mediated dSARM multimerization is important for axon degeneration, it is dispensable for TLR signaling. Finally, dSARM functions in a linear genetic pathway with the MAP3K Ask1 during development but not in degenerating axons. Thus, we propose that dSARM exists in distinct signaling states in developmental and pathological contexts.
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spelling pubmed-92233962022-06-24 Divergent signaling requirements of dSARM in injury-induced degeneration and developmental glial phagocytosis Herrmann, Kelsey A. Liu, Yizhou Llobet-Rosell, Arnau McLaughlin, Colleen N. Neukomm, Lukas J. Coutinho-Budd, Jaeda C. Broihier, Heather T. PLoS Genet Research Article Elucidating signal transduction mechanisms of innate immune pathways is essential to defining how they elicit distinct cellular responses. Toll-like receptors (TLR) signal through their cytoplasmic TIR domains which bind other TIR domain-containing adaptors. dSARM/SARM1 is one such TIR domain adaptor best known for its role as the central axon degeneration trigger after injury. In degeneration, SARM1’s domains have been assigned unique functions: the ARM domain is auto-inhibitory, SAM-SAM domain interactions mediate multimerization, and the TIR domain has intrinsic NAD(+) hydrolase activity that precipitates axonal demise. Whether and how these distinct functions contribute to TLR signaling is unknown. Here we show divergent signaling requirements for dSARM in injury-induced axon degeneration and TLR-mediated developmental glial phagocytosis through analysis of new knock-in domain and point mutations. We demonstrate intragenic complementation between reciprocal pairs of domain mutants during development, providing evidence for separability of dSARM functional domains in TLR signaling. Surprisingly, dSARM’s NAD(+) hydrolase activity is strictly required for both degenerative and developmental signaling, demonstrating that TLR signal transduction requires dSARM’s enzymatic activity. In contrast, while SAM domain-mediated dSARM multimerization is important for axon degeneration, it is dispensable for TLR signaling. Finally, dSARM functions in a linear genetic pathway with the MAP3K Ask1 during development but not in degenerating axons. Thus, we propose that dSARM exists in distinct signaling states in developmental and pathological contexts. Public Library of Science 2022-06-23 /pmc/articles/PMC9223396/ /pubmed/35737721 http://dx.doi.org/10.1371/journal.pgen.1010257 Text en © 2022 Herrmann et al https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Herrmann, Kelsey A.
Liu, Yizhou
Llobet-Rosell, Arnau
McLaughlin, Colleen N.
Neukomm, Lukas J.
Coutinho-Budd, Jaeda C.
Broihier, Heather T.
Divergent signaling requirements of dSARM in injury-induced degeneration and developmental glial phagocytosis
title Divergent signaling requirements of dSARM in injury-induced degeneration and developmental glial phagocytosis
title_full Divergent signaling requirements of dSARM in injury-induced degeneration and developmental glial phagocytosis
title_fullStr Divergent signaling requirements of dSARM in injury-induced degeneration and developmental glial phagocytosis
title_full_unstemmed Divergent signaling requirements of dSARM in injury-induced degeneration and developmental glial phagocytosis
title_short Divergent signaling requirements of dSARM in injury-induced degeneration and developmental glial phagocytosis
title_sort divergent signaling requirements of dsarm in injury-induced degeneration and developmental glial phagocytosis
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9223396/
https://www.ncbi.nlm.nih.gov/pubmed/35737721
http://dx.doi.org/10.1371/journal.pgen.1010257
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