Microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitis

Microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitis

Abstract Human inflammatory or neurodegenerative diseases, such as progressive multiple sclerosis (MS), occur on a background of age-related microglia activation and iron accumulation as well as pre-existing neurodegeneration. Most experimental models for CNS diseases, however, are induced in rodent...

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Main Authors: Isabella Wimmer, Cornelia Scharler, Tobias Zrzavy, Taro Kadowaki, Verena Mödlagl, Kim Rojc, Anna R. Tröscher, Maja Kitic, Shuichi Ueda, Monika Bradl, Hans Lassmann
Format: Article
Language:English
Published: BMC 2019-01-01
Series:Acta Neuropathologica Communications
Subjects:
Progressive multiple sclerosis
Experimental autoimmune encephalitis
Neurodegeneration
Microglia
Zitter rat
Online Access:http://link.springer.com/article/10.1186/s40478-019-0667-9
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spelling doaj-dd4059d2604944f19069c5ca99be29262020-11-25T01:19:54ZengBMCActa Neuropathologica Communications2051-59602019-01-017111310.1186/s40478-019-0667-9Microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitisIsabella Wimmer0Cornelia Scharler1Tobias Zrzavy2Taro Kadowaki3Verena Mödlagl4Kim Rojc5Anna R. Tröscher6Maja Kitic7Shuichi Ueda8Monika Bradl9Hans Lassmann10Department of Neuroimmunology, Center for Brain Research, Medical University of ViennaDepartment of Neuroimmunology, Center for Brain Research, Medical University of ViennaDepartment of Neuroimmunology, Center for Brain Research, Medical University of ViennaDepartment of Neuroimmunology, Center for Brain Research, Medical University of ViennaDepartment of Neuroimmunology, Center for Brain Research, Medical University of ViennaDepartment of Neuroimmunology, Center for Brain Research, Medical University of ViennaDepartment of Neuroimmunology, Center for Brain Research, Medical University of ViennaDepartment of Neuroimmunology, Center for Brain Research, Medical University of ViennaDepartment of Histology and Neurobiology, Dokkyo Medical UniversityDepartment of Neuroimmunology, Center for Brain Research, Medical University of ViennaDepartment of Neuroimmunology, Center for Brain Research, Medical University of ViennaAbstract Human inflammatory or neurodegenerative diseases, such as progressive multiple sclerosis (MS), occur on a background of age-related microglia activation and iron accumulation as well as pre-existing neurodegeneration. Most experimental models for CNS diseases, however, are induced in rodents, which are naturally characterized by a homeostatic microglia phenotype, low cellular iron load and absence of neurodegeneration. Here, we show that naïve LEWzizi rats – Lewis rats with a zitter rat background – show a spontaneous phenotype partly mimicking the changes seen in human aging and particularly in the normal-appearing white and grey matter of patients with progressive MS. Using this model system, we further aimed to investigate (i) whether the acute monophasic MS model experimental autoimmune encephalomyelitis (EAE) transforms into chronic progressive disease and (ii) whether EAE-induced neuroinflammation and tissue damage aggravate on the LEWzizi background. We found that the pre-existing LEWzizi-specific pathology precipitated EAE-related neuroinflammation into forebrain areas, which are devoid of EAE lesions in normal Lewis rats. However, EAE-related tissue damage was neither modified by the LEWzizi-specific pathology nor did EAE-induced neuroinflammation modify the LEWzizi-related pathological process. Our data indicate that the interaction between pre-activated microglia and CD4+ autoreactive T cells during the induction and propagation of tissue damage in the CNS is limited.http://link.springer.com/article/10.1186/s40478-019-0667-9Progressive multiple sclerosisExperimental autoimmune encephalitisNeurodegenerationMicrogliaZitter rat
collection DOAJ
language English
format Article
sources DOAJ
author Isabella Wimmer
Cornelia Scharler
Tobias Zrzavy
Taro Kadowaki
Verena Mödlagl
Kim Rojc
Anna R. Tröscher
Maja Kitic
Shuichi Ueda
Monika Bradl
Hans Lassmann
spellingShingle Isabella Wimmer
Cornelia Scharler
Tobias Zrzavy
Taro Kadowaki
Verena Mödlagl
Kim Rojc
Anna R. Tröscher
Maja Kitic
Shuichi Ueda
Monika Bradl
Hans Lassmann
Microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitis
Acta Neuropathologica Communications
Progressive multiple sclerosis
Experimental autoimmune encephalitis
Neurodegeneration
Microglia
Zitter rat
author_facet Isabella Wimmer
Cornelia Scharler
Tobias Zrzavy
Taro Kadowaki
Verena Mödlagl
Kim Rojc
Anna R. Tröscher
Maja Kitic
Shuichi Ueda
Monika Bradl
Hans Lassmann
author_sort Isabella Wimmer
title Microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitis
title_short Microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitis
title_full Microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitis
title_fullStr Microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitis
title_full_unstemmed Microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitis
title_sort microglia pre-activation and neurodegeneration precipitate neuroinflammation without exacerbating tissue injury in experimental autoimmune encephalomyelitis
publisher BMC
series Acta Neuropathologica Communications
issn 2051-5960
publishDate 2019-01-01
description Abstract Human inflammatory or neurodegenerative diseases, such as progressive multiple sclerosis (MS), occur on a background of age-related microglia activation and iron accumulation as well as pre-existing neurodegeneration. Most experimental models for CNS diseases, however, are induced in rodents, which are naturally characterized by a homeostatic microglia phenotype, low cellular iron load and absence of neurodegeneration. Here, we show that naïve LEWzizi rats – Lewis rats with a zitter rat background – show a spontaneous phenotype partly mimicking the changes seen in human aging and particularly in the normal-appearing white and grey matter of patients with progressive MS. Using this model system, we further aimed to investigate (i) whether the acute monophasic MS model experimental autoimmune encephalomyelitis (EAE) transforms into chronic progressive disease and (ii) whether EAE-induced neuroinflammation and tissue damage aggravate on the LEWzizi background. We found that the pre-existing LEWzizi-specific pathology precipitated EAE-related neuroinflammation into forebrain areas, which are devoid of EAE lesions in normal Lewis rats. However, EAE-related tissue damage was neither modified by the LEWzizi-specific pathology nor did EAE-induced neuroinflammation modify the LEWzizi-related pathological process. Our data indicate that the interaction between pre-activated microglia and CD4+ autoreactive T cells during the induction and propagation of tissue damage in the CNS is limited.
topic Progressive multiple sclerosis
Experimental autoimmune encephalitis
Neurodegeneration
Microglia
Zitter rat
url http://link.springer.com/article/10.1186/s40478-019-0667-9
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