Extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.

Extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.

Mechanisms behind how the immune system signals to the brain in response to systemic inflammation are not fully understood. Transgenic mice expressing Cre recombinase specifically in the hematopoietic lineage in a Cre reporter background display recombination and marker gene expression in Purkinje n...

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Main Authors: Kirsten Ridder, Sascha Keller, Maria Dams, Anne-Kathleen Rupp, Jessica Schlaudraff, Domenico Del Turco, Julia Starmann, Jadranka Macas, Darja Karpova, Kavi Devraj, Candan Depboylu, Britta Landfried, Bernd Arnold, Karl H Plate, Günter Höglinger, Holger Sültmann, Peter Altevogt, Stefan Momma
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-06-01
Series:PLoS Biology
Online Access:http://europepmc.org/articles/PMC4043485?pdf=render
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spelling doaj-152d85cd7dbb49bab35783164d3876d22021-07-02T02:53:20ZengPublic Library of Science (PLoS)PLoS Biology1544-91731545-78852014-06-01126e100187410.1371/journal.pbio.1001874Extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.Kirsten RidderSascha KellerMaria DamsAnne-Kathleen RuppJessica SchlaudraffDomenico Del TurcoJulia StarmannJadranka MacasDarja KarpovaKavi DevrajCandan DepboyluBritta LandfriedBernd ArnoldKarl H PlateGünter HöglingerHolger SültmannPeter AltevogtStefan MommaMechanisms behind how the immune system signals to the brain in response to systemic inflammation are not fully understood. Transgenic mice expressing Cre recombinase specifically in the hematopoietic lineage in a Cre reporter background display recombination and marker gene expression in Purkinje neurons. Here we show that reportergene expression in neurons is caused by intercellular transfer of functional Cre recombinase messenger RNA from immune cells into neurons in the absence of cell fusion. In vitro purified secreted extracellular vesicles (EVs) from blood cells contain Cre mRNA, which induces recombination in neurons when injected into the brain. Although Cre-mediated recombination events in the brain occur very rarely in healthy animals, their number increases considerably in different injury models, particularly under inflammatory conditions, and extend beyond Purkinje neurons to other neuronal populations in cortex, hippocampus, and substantia nigra. Recombined Purkinje neurons differ in their miRNA profile from their nonrecombined counterparts, indicating physiological significance. These observations reveal the existence of a previously unrecognized mechanism to communicate RNA-based signals between the hematopoietic system and various organs, including the brain, in response to inflammation.http://europepmc.org/articles/PMC4043485?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Kirsten Ridder
Sascha Keller
Maria Dams
Anne-Kathleen Rupp
Jessica Schlaudraff
Domenico Del Turco
Julia Starmann
Jadranka Macas
Darja Karpova
Kavi Devraj
Candan Depboylu
Britta Landfried
Bernd Arnold
Karl H Plate
Günter Höglinger
Holger Sültmann
Peter Altevogt
Stefan Momma
spellingShingle Kirsten Ridder
Sascha Keller
Maria Dams
Anne-Kathleen Rupp
Jessica Schlaudraff
Domenico Del Turco
Julia Starmann
Jadranka Macas
Darja Karpova
Kavi Devraj
Candan Depboylu
Britta Landfried
Bernd Arnold
Karl H Plate
Günter Höglinger
Holger Sültmann
Peter Altevogt
Stefan Momma
Extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.
PLoS Biology
author_facet Kirsten Ridder
Sascha Keller
Maria Dams
Anne-Kathleen Rupp
Jessica Schlaudraff
Domenico Del Turco
Julia Starmann
Jadranka Macas
Darja Karpova
Kavi Devraj
Candan Depboylu
Britta Landfried
Bernd Arnold
Karl H Plate
Günter Höglinger
Holger Sültmann
Peter Altevogt
Stefan Momma
author_sort Kirsten Ridder
title Extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.
title_short Extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.
title_full Extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.
title_fullStr Extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.
title_full_unstemmed Extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.
title_sort extracellular vesicle-mediated transfer of genetic information between the hematopoietic system and the brain in response to inflammation.
publisher Public Library of Science (PLoS)
series PLoS Biology
issn 1544-9173
1545-7885
publishDate 2014-06-01
description Mechanisms behind how the immune system signals to the brain in response to systemic inflammation are not fully understood. Transgenic mice expressing Cre recombinase specifically in the hematopoietic lineage in a Cre reporter background display recombination and marker gene expression in Purkinje neurons. Here we show that reportergene expression in neurons is caused by intercellular transfer of functional Cre recombinase messenger RNA from immune cells into neurons in the absence of cell fusion. In vitro purified secreted extracellular vesicles (EVs) from blood cells contain Cre mRNA, which induces recombination in neurons when injected into the brain. Although Cre-mediated recombination events in the brain occur very rarely in healthy animals, their number increases considerably in different injury models, particularly under inflammatory conditions, and extend beyond Purkinje neurons to other neuronal populations in cortex, hippocampus, and substantia nigra. Recombined Purkinje neurons differ in their miRNA profile from their nonrecombined counterparts, indicating physiological significance. These observations reveal the existence of a previously unrecognized mechanism to communicate RNA-based signals between the hematopoietic system and various organs, including the brain, in response to inflammation.
url http://europepmc.org/articles/PMC4043485?pdf=render
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