Table_6_Innovation in Nucleotide-Binding Oligomerization-Like Receptor and Toll-Like Receptor Sensing Drives the Major Histocompatibility Complex-II Free Atlantic Cod Immune System.xlsx

The absence of MHC class II antigen presentation and multiple pathogen recognition receptors in the Atlantic cod has not impaired its immune response however how underlying mechanisms have adapted remains largely unknown. In this study, ex vivo cod macrophages were challenged with various bacterial...

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Bibliographic Details
Main Authors: Xingkun Jin, Bernat Morro, Ole K. Tørresen, Visila Moiche, Monica H. Solbakken, Kjetill S. Jakobsen, Sissel Jentoft, Simon MacKenzie
Format: Dataset
Language:unknown
Published: 2020
Subjects:
Immunology
Applied Immunology (incl. Antibody Engineering
Xenotransplantation and T-cell Therapies)
Autoimmunity
Cellular Immunology
Humoural Immunology and Immunochemistry
Immunogenetics (incl. Genetic Immunology)
Innate Immunity
Transplantation Immunology
Tumour Immunology
Immunology not elsewhere classified
Genetic Immunology
Animal Immunology
Veterinary Immunology
cod
immune response
nucleotide-binding oligomerization-like receptor (NLR)
macrophage
Toll-like receptor (TLR)
atlantic cod
Online Access:https://doi.org/10.3389/fimmu.2020.609456.s015
https://figshare.com/articles/dataset/Table_6_Innovation_in_Nucleotide-Binding_Oligomerization-Like_Receptor_and_Toll-Like_Receptor_Sensing_Drives_the_Major_Histocompatibility_Complex-II_Free_Atlantic_Cod_Immune_System_xlsx/13365098
Description
Summary:The absence of MHC class II antigen presentation and multiple pathogen recognition receptors in the Atlantic cod has not impaired its immune response however how underlying mechanisms have adapted remains largely unknown. In this study, ex vivo cod macrophages were challenged with various bacterial and viral microbe-associated molecular patterns (MAMP) to identify major response pathways. Cytosolic MAMP-PRR pathways based upon the NOD-like receptors (NLRs) and RIG-I-like receptors (RLRs) were identified as the critical response pathways. Our analyses suggest that internalization of exogenous ligands through scavenger receptors drives both pathways activating transcription factors like NF-kB (Nuclear factor-kappa B) and interferon regulatory factors (IRFs). Further, ligand-dependent differential expression of a unique TLR25 isoform and multiple NLR paralogues suggests (sub)neofunctionalization toward specific immune defensive strategies. Our results further demonstrate that the unique immune system of the Atlantic cod provides an unprecedented opportunity to explore the evolutionary history of PRR-based signaling in vertebrate immunity.

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