Table_1_Characterization of miRNAs in Extracellular Vesicles Released From Atlantic Salmon Monocyte-Like and Macrophage-Like Cells.xlsx

Cell-derived extracellular vesicles (EVs) participate in cell-cell communication via transfer of molecular cargo including genetic material like miRNAs. In mammals, it has previously been established that EV-mediated transfer of miRNAs can alter the development or function of immune cells, such as m...

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Main Authors: Nicole C. Smith, Gabriel Wajnberg, Simi Chacko, Nardos T. Woldemariam, Jacynthe Lacroix, Nicolas Crapoulet, D. Craig Ayre, Stephen M. Lewis, Matthew L. Rise, Rune Andreassen, Sherri L. Christian
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
extracellular vesicles
microRNA
Atlantic salmon
RNA-sequencing
RNA-seq
macrophage
head kidney culture
Online Access:https://doi.org/10.3389/fimmu.2020.587931.s001
https://figshare.com/articles/dataset/Table_1_Characterization_of_miRNAs_in_Extracellular_Vesicles_Released_From_Atlantic_Salmon_Monocyte-Like_and_Macrophage-Like_Cells_xlsx/13219223
id ftfrontimediafig:oai:figshare.com:article/13219223
record_format openpolar
spelling ftfrontimediafig:oai:figshare.com:article/13219223 2023-05-15T15:30:42+02:00 Table_1_Characterization of miRNAs in Extracellular Vesicles Released From Atlantic Salmon Monocyte-Like and Macrophage-Like Cells.xlsx Nicole C. Smith Gabriel Wajnberg Simi Chacko Nardos T. Woldemariam Jacynthe Lacroix Nicolas Crapoulet D. Craig Ayre Stephen M. Lewis Matthew L. Rise Rune Andreassen Sherri L. Christian 2020-11-11T04:23:58Z https://doi.org/10.3389/fimmu.2020.587931.s001 https://figshare.com/articles/dataset/Table_1_Characterization_of_miRNAs_in_Extracellular_Vesicles_Released_From_Atlantic_Salmon_Monocyte-Like_and_Macrophage-Like_Cells_xlsx/13219223 unknown doi:10.3389/fimmu.2020.587931.s001 https://figshare.com/articles/dataset/Table_1_Characterization_of_miRNAs_in_Extracellular_Vesicles_Released_From_Atlantic_Salmon_Monocyte-Like_and_Macrophage-Like_Cells_xlsx/13219223 CC BY 4.0 CC-BY 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 extracellular vesicles microRNA Atlantic salmon RNA-sequencing RNA-seq macrophage head kidney culture Dataset 2020 ftfrontimediafig https://doi.org/10.3389/fimmu.2020.587931.s001 2020-11-11T23:55:28Z Cell-derived extracellular vesicles (EVs) participate in cell-cell communication via transfer of molecular cargo including genetic material like miRNAs. In mammals, it has previously been established that EV-mediated transfer of miRNAs can alter the development or function of immune cells, such as macrophages. Our previous research revealed that Atlantic salmon head kidney leukocytes (HKLs) change their morphology, phagocytic ability and miRNA profile from primarily “monocyte-like” at Day 1 to primarily “macrophage-like” at Day 5 of culture. Therefore, we aimed to characterize the miRNA cargo packaged in EVs released from these two cell populations. We successfully isolated EVs from Atlantic salmon HKL culture supernatants using the established Vn96 peptide-based pull-down. Isolation was validated using transmission electron microscopy, nanoparticle tracking analysis, and Western blotting. RNA-sequencing identified 19 differentially enriched (DE) miRNAs packaged in Day 1 versus Day 5 EVs. Several of the highly abundant miRNAs, including those that were DE (e.g. ssa-miR-146a, ssa-miR-155 and ssa-miR-731), were previously identified as DE in HKLs and are associated with macrophage differentiation and immune response in other species. Interestingly, the abundance relative of the miRNAs in EVs, including the most abundant miRNA (ssa-miR-125b), was different than the miRNA abundance in HKLs, indicating selective packaging of miRNAs in EVs. Further study of the miRNA cargo in EVs derived from fish immune cells will be an important next step in identifying EV biomarkers useful for evaluating immune cell function, fish health, or response to disease. Dataset Atlantic salmon Frontiers: Figshare
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic 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
extracellular vesicles
microRNA
Atlantic salmon
RNA-sequencing
RNA-seq
macrophage
head kidney culture
spellingShingle 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
extracellular vesicles
microRNA
Atlantic salmon
RNA-sequencing
RNA-seq
macrophage
head kidney culture
Nicole C. Smith
Gabriel Wajnberg
Simi Chacko
Nardos T. Woldemariam
Jacynthe Lacroix
Nicolas Crapoulet
D. Craig Ayre
Stephen M. Lewis
Matthew L. Rise
Rune Andreassen
Sherri L. Christian
Table_1_Characterization of miRNAs in Extracellular Vesicles Released From Atlantic Salmon Monocyte-Like and Macrophage-Like Cells.xlsx
topic_facet 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
extracellular vesicles
microRNA
Atlantic salmon
RNA-sequencing
RNA-seq
macrophage
head kidney culture
description Cell-derived extracellular vesicles (EVs) participate in cell-cell communication via transfer of molecular cargo including genetic material like miRNAs. In mammals, it has previously been established that EV-mediated transfer of miRNAs can alter the development or function of immune cells, such as macrophages. Our previous research revealed that Atlantic salmon head kidney leukocytes (HKLs) change their morphology, phagocytic ability and miRNA profile from primarily “monocyte-like” at Day 1 to primarily “macrophage-like” at Day 5 of culture. Therefore, we aimed to characterize the miRNA cargo packaged in EVs released from these two cell populations. We successfully isolated EVs from Atlantic salmon HKL culture supernatants using the established Vn96 peptide-based pull-down. Isolation was validated using transmission electron microscopy, nanoparticle tracking analysis, and Western blotting. RNA-sequencing identified 19 differentially enriched (DE) miRNAs packaged in Day 1 versus Day 5 EVs. Several of the highly abundant miRNAs, including those that were DE (e.g. ssa-miR-146a, ssa-miR-155 and ssa-miR-731), were previously identified as DE in HKLs and are associated with macrophage differentiation and immune response in other species. Interestingly, the abundance relative of the miRNAs in EVs, including the most abundant miRNA (ssa-miR-125b), was different than the miRNA abundance in HKLs, indicating selective packaging of miRNAs in EVs. Further study of the miRNA cargo in EVs derived from fish immune cells will be an important next step in identifying EV biomarkers useful for evaluating immune cell function, fish health, or response to disease.
format Dataset
author Nicole C. Smith
Gabriel Wajnberg
Simi Chacko
Nardos T. Woldemariam
Jacynthe Lacroix
Nicolas Crapoulet
D. Craig Ayre
Stephen M. Lewis
Matthew L. Rise
Rune Andreassen
Sherri L. Christian
author_facet Nicole C. Smith
Gabriel Wajnberg
Simi Chacko
Nardos T. Woldemariam
Jacynthe Lacroix
Nicolas Crapoulet
D. Craig Ayre
Stephen M. Lewis
Matthew L. Rise
Rune Andreassen
Sherri L. Christian
author_sort Nicole C. Smith
title Table_1_Characterization of miRNAs in Extracellular Vesicles Released From Atlantic Salmon Monocyte-Like and Macrophage-Like Cells.xlsx
title_short Table_1_Characterization of miRNAs in Extracellular Vesicles Released From Atlantic Salmon Monocyte-Like and Macrophage-Like Cells.xlsx
title_full Table_1_Characterization of miRNAs in Extracellular Vesicles Released From Atlantic Salmon Monocyte-Like and Macrophage-Like Cells.xlsx
title_fullStr Table_1_Characterization of miRNAs in Extracellular Vesicles Released From Atlantic Salmon Monocyte-Like and Macrophage-Like Cells.xlsx
title_full_unstemmed Table_1_Characterization of miRNAs in Extracellular Vesicles Released From Atlantic Salmon Monocyte-Like and Macrophage-Like Cells.xlsx
title_sort table_1_characterization of mirnas in extracellular vesicles released from atlantic salmon monocyte-like and macrophage-like cells.xlsx
publishDate 2020
url https://doi.org/10.3389/fimmu.2020.587931.s001
https://figshare.com/articles/dataset/Table_1_Characterization_of_miRNAs_in_Extracellular_Vesicles_Released_From_Atlantic_Salmon_Monocyte-Like_and_Macrophage-Like_Cells_xlsx/13219223
genre Atlantic salmon
genre_facet Atlantic salmon
op_relation doi:10.3389/fimmu.2020.587931.s001
https://figshare.com/articles/dataset/Table_1_Characterization_of_miRNAs_in_Extracellular_Vesicles_Released_From_Atlantic_Salmon_Monocyte-Like_and_Macrophage-Like_Cells_xlsx/13219223
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fimmu.2020.587931.s001
_version_ 1766361154119008256

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