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Phylogeny of Toll-Like Receptor Signaling: Adapting the Innate Response

The Toll-like receptors represent a largely evolutionarily conserved pathogen recognition machinery responsible for recognition of bacterial, fungal, protozoan, and viral pathogen associated microbial patterns and initiation of inflammatory response. Structurally the Toll-like receptors are comprise...

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Autores principales: Roach, Jeffrey M., Racioppi, Luigi, Jones, Corbin D., Masci, Anna Maria
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3543326/
https://www.ncbi.nlm.nih.gov/pubmed/23326591
http://dx.doi.org/10.1371/journal.pone.0054156
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author Roach, Jeffrey M.
Racioppi, Luigi
Jones, Corbin D.
Masci, Anna Maria
author_facet Roach, Jeffrey M.
Racioppi, Luigi
Jones, Corbin D.
Masci, Anna Maria
author_sort Roach, Jeffrey M.
collection PubMed
description The Toll-like receptors represent a largely evolutionarily conserved pathogen recognition machinery responsible for recognition of bacterial, fungal, protozoan, and viral pathogen associated microbial patterns and initiation of inflammatory response. Structurally the Toll-like receptors are comprised of an extracellular leucine rich repeat domain and a cytoplasmic Toll/Interleukin 1 receptor domain. Recognition takes place in the extracellular domain where as the cytoplasmic domain triggers a complex signal network required to sustain appropriate immune response. Signal transduction is regulated by the recruitment of different intracellular adaptors. The Toll-like receptors can be grouped depending on the usage of the adaptor, MyD88, into MyD88-dependent and MyD88 independent subsets. Herein, we present a unique phylogenetic analysis of domain regions of these receptors and their cognate signaling adaptor molecules. Although previously unclear from the phylogeny of full length receptors, these analyses indicate a separate evolutionary origin for the MyD88-dependent and MyD88-independent signaling pathway and provide evidence of a common ancestor for the vertebrate and invertebrate orthologs of the adaptor molecule MyD88. Together these observations suggest a very ancient origin of the MyD88-dependent pathway Additionally we show that early duplications gave rise to several adaptor molecule families. In some cases there is also strong pattern of parallel duplication between adaptor molecules and their corresponding TLR. Our results further support the hypothesis that phylogeny of specific domains involved in signaling pathway can shed light on key processes that link innate to adaptive immune response.
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spelling pubmed-35433262013-01-16 Phylogeny of Toll-Like Receptor Signaling: Adapting the Innate Response Roach, Jeffrey M. Racioppi, Luigi Jones, Corbin D. Masci, Anna Maria PLoS One Research Article The Toll-like receptors represent a largely evolutionarily conserved pathogen recognition machinery responsible for recognition of bacterial, fungal, protozoan, and viral pathogen associated microbial patterns and initiation of inflammatory response. Structurally the Toll-like receptors are comprised of an extracellular leucine rich repeat domain and a cytoplasmic Toll/Interleukin 1 receptor domain. Recognition takes place in the extracellular domain where as the cytoplasmic domain triggers a complex signal network required to sustain appropriate immune response. Signal transduction is regulated by the recruitment of different intracellular adaptors. The Toll-like receptors can be grouped depending on the usage of the adaptor, MyD88, into MyD88-dependent and MyD88 independent subsets. Herein, we present a unique phylogenetic analysis of domain regions of these receptors and their cognate signaling adaptor molecules. Although previously unclear from the phylogeny of full length receptors, these analyses indicate a separate evolutionary origin for the MyD88-dependent and MyD88-independent signaling pathway and provide evidence of a common ancestor for the vertebrate and invertebrate orthologs of the adaptor molecule MyD88. Together these observations suggest a very ancient origin of the MyD88-dependent pathway Additionally we show that early duplications gave rise to several adaptor molecule families. In some cases there is also strong pattern of parallel duplication between adaptor molecules and their corresponding TLR. Our results further support the hypothesis that phylogeny of specific domains involved in signaling pathway can shed light on key processes that link innate to adaptive immune response. Public Library of Science 2013-01-11 /pmc/articles/PMC3543326/ /pubmed/23326591 http://dx.doi.org/10.1371/journal.pone.0054156 Text en © 2013 Roach et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Roach, Jeffrey M.
Racioppi, Luigi
Jones, Corbin D.
Masci, Anna Maria
Phylogeny of Toll-Like Receptor Signaling: Adapting the Innate Response
title Phylogeny of Toll-Like Receptor Signaling: Adapting the Innate Response
title_full Phylogeny of Toll-Like Receptor Signaling: Adapting the Innate Response
title_fullStr Phylogeny of Toll-Like Receptor Signaling: Adapting the Innate Response
title_full_unstemmed Phylogeny of Toll-Like Receptor Signaling: Adapting the Innate Response
title_short Phylogeny of Toll-Like Receptor Signaling: Adapting the Innate Response
title_sort phylogeny of toll-like receptor signaling: adapting the innate response
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3543326/
https://www.ncbi.nlm.nih.gov/pubmed/23326591
http://dx.doi.org/10.1371/journal.pone.0054156
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