Characterization of Vimentin-Immunoreactive Astrocytes in the Human Brain

Characterization of Vimentin-Immunoreactive Astrocytes in the Human Brain

Astrocytes are commonly identified by their expression of the intermediate filament protein glial fibrillary acidic protein (GFAP). GFAP-immunoreactive (GFAP-IR) astrocytes exhibit regional heterogeneity in density and morphology in the mouse brain as well as morphological diversity in the human cor...

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Main Authors: Liam Anuj O’Leary, Maria Antonietta Davoli, Claudia Belliveau, Arnaud Tanti, Jie Christopher Ma, William Todd Farmer, Gustavo Turecki, Keith Kazuo Murai, Naguib Mechawar
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-07-01
Series:Frontiers in Neuroanatomy
Subjects:
human
mouse
astrocyte
vimentin
GFAP
stereology
Online Access:https://www.frontiersin.org/article/10.3389/fnana.2020.00031/full
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language English
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author Liam Anuj O’Leary
Liam Anuj O’Leary
Maria Antonietta Davoli
Claudia Belliveau
Claudia Belliveau
Arnaud Tanti
Jie Christopher Ma
William Todd Farmer
Gustavo Turecki
Gustavo Turecki
Gustavo Turecki
Keith Kazuo Murai
Naguib Mechawar
Naguib Mechawar
Naguib Mechawar
spellingShingle Liam Anuj O’Leary
Liam Anuj O’Leary
Maria Antonietta Davoli
Claudia Belliveau
Claudia Belliveau
Arnaud Tanti
Jie Christopher Ma
William Todd Farmer
Gustavo Turecki
Gustavo Turecki
Gustavo Turecki
Keith Kazuo Murai
Naguib Mechawar
Naguib Mechawar
Naguib Mechawar
Characterization of Vimentin-Immunoreactive Astrocytes in the Human Brain
Frontiers in Neuroanatomy
human
mouse
astrocyte
vimentin
GFAP
stereology
author_facet Liam Anuj O’Leary
Liam Anuj O’Leary
Maria Antonietta Davoli
Claudia Belliveau
Claudia Belliveau
Arnaud Tanti
Jie Christopher Ma
William Todd Farmer
Gustavo Turecki
Gustavo Turecki
Gustavo Turecki
Keith Kazuo Murai
Naguib Mechawar
Naguib Mechawar
Naguib Mechawar
author_sort Liam Anuj O’Leary
title Characterization of Vimentin-Immunoreactive Astrocytes in the Human Brain
title_short Characterization of Vimentin-Immunoreactive Astrocytes in the Human Brain
title_full Characterization of Vimentin-Immunoreactive Astrocytes in the Human Brain
title_fullStr Characterization of Vimentin-Immunoreactive Astrocytes in the Human Brain
title_full_unstemmed Characterization of Vimentin-Immunoreactive Astrocytes in the Human Brain
title_sort characterization of vimentin-immunoreactive astrocytes in the human brain
publisher Frontiers Media S.A.
series Frontiers in Neuroanatomy
issn 1662-5129
publishDate 2020-07-01
description Astrocytes are commonly identified by their expression of the intermediate filament protein glial fibrillary acidic protein (GFAP). GFAP-immunoreactive (GFAP-IR) astrocytes exhibit regional heterogeneity in density and morphology in the mouse brain as well as morphological diversity in the human cortex. However, regional variations in astrocyte distribution and morphology remain to be assessed comprehensively. This was the overarching objective of this postmortem study, which mainly exploited the immunolabeling of vimentin (VIM), an intermediate filament protein expressed by astrocytes and endothelial cells which presents the advantage of more extensively labeling cell structures. We compared the densities of vimentin-immunoreactive (VIM-IR) and GFAP-IR astrocytes in various brain regions (prefrontal and primary visual cortex, caudate nucleus, mediodorsal thalamus) from male individuals having died suddenly in the absence of neurological or psychiatric conditions. The morphometric properties of VIM-IR in these brain regions were also assessed. We found that VIM-IR astrocytes generally express the canonical astrocytic markers Aldh1L1 and GFAP but that VIM-IR astrocytes are less abundant than GFAP-IR astrocytes in all human brain regions, particularly in the thalamus, where VIM-IR cells were nearly absent. About 20% of all VIM-IR astrocytes presented a twin cell morphology, a phenomenon rarely observed for GFAP-IR astrocytes. Furthermore VIM-IR astrocytes in the striatum were often seen to extend numerous parallel processes which seemed to give rise to large VIM-IR fiber bundles projecting over long distances. Moreover, morphometric analyses revealed that VIM-IR astrocytes were more complex than their mouse counterparts in functionally homologous brain regions, as has been previously reported for GFAP-IR astrocytes. Lastly, the density of GFAP-IR astrocytes in gray and white matter were inversely correlated with vascular density, but for VIM-IR astrocytes this was only the case in gray matter, suggesting that gliovascular interactions may especially influence the regional heterogeneity of GFAP-IR astrocytes. Taken together, these findings reveal special features displayed uniquely by human VIM-IR astrocytes and illustrate that astrocytes display important region- and marker-specific differences in the healthy human brain.
topic human
mouse
astrocyte
vimentin
GFAP
stereology
url https://www.frontiersin.org/article/10.3389/fnana.2020.00031/full
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spelling doaj-d1faca3613934b8ca8615eb67c9c56cc2020-11-25T03:49:30ZengFrontiers Media S.A.Frontiers in Neuroanatomy1662-51292020-07-011410.3389/fnana.2020.00031548517Characterization of Vimentin-Immunoreactive Astrocytes in the Human BrainLiam Anuj O’Leary0Liam Anuj O’Leary1Maria Antonietta Davoli2Claudia Belliveau3Claudia Belliveau4Arnaud Tanti5Jie Christopher Ma6William Todd Farmer7Gustavo Turecki8Gustavo Turecki9Gustavo Turecki10Keith Kazuo Murai11Naguib Mechawar12Naguib Mechawar13Naguib Mechawar14McGill Group for Suicide Studies, Douglas Mental Health University Institute, Verdun, QC, CanadaIntegrated Program in Neuroscience, McGill University, Montreal, QC, CanadaMcGill Group for Suicide Studies, Douglas Mental Health University Institute, Verdun, QC, CanadaMcGill Group for Suicide Studies, Douglas Mental Health University Institute, Verdun, QC, CanadaIntegrated Program in Neuroscience, McGill University, Montreal, QC, CanadaMcGill Group for Suicide Studies, Douglas Mental Health University Institute, Verdun, QC, CanadaMcGill Group for Suicide Studies, Douglas Mental Health University Institute, Verdun, QC, CanadaCentre for Research in Neuroscience, Department of Neurology and Neurosurgery, Brain Repair and Integrative Neuroscience Program, The Research Institute of the McGill University Health Center, Montreal General Hospital, Montreal, QC, CanadaMcGill Group for Suicide Studies, Douglas Mental Health University Institute, Verdun, QC, CanadaIntegrated Program in Neuroscience, McGill University, Montreal, QC, CanadaDepartment of Psychiatry, McGill University, Montreal, QC, CanadaCentre for Research in Neuroscience, Department of Neurology and Neurosurgery, Brain Repair and Integrative Neuroscience Program, The Research Institute of the McGill University Health Center, Montreal General Hospital, Montreal, QC, CanadaMcGill Group for Suicide Studies, Douglas Mental Health University Institute, Verdun, QC, CanadaIntegrated Program in Neuroscience, McGill University, Montreal, QC, CanadaDepartment of Psychiatry, McGill University, Montreal, QC, CanadaAstrocytes are commonly identified by their expression of the intermediate filament protein glial fibrillary acidic protein (GFAP). GFAP-immunoreactive (GFAP-IR) astrocytes exhibit regional heterogeneity in density and morphology in the mouse brain as well as morphological diversity in the human cortex. However, regional variations in astrocyte distribution and morphology remain to be assessed comprehensively. This was the overarching objective of this postmortem study, which mainly exploited the immunolabeling of vimentin (VIM), an intermediate filament protein expressed by astrocytes and endothelial cells which presents the advantage of more extensively labeling cell structures. We compared the densities of vimentin-immunoreactive (VIM-IR) and GFAP-IR astrocytes in various brain regions (prefrontal and primary visual cortex, caudate nucleus, mediodorsal thalamus) from male individuals having died suddenly in the absence of neurological or psychiatric conditions. The morphometric properties of VIM-IR in these brain regions were also assessed. We found that VIM-IR astrocytes generally express the canonical astrocytic markers Aldh1L1 and GFAP but that VIM-IR astrocytes are less abundant than GFAP-IR astrocytes in all human brain regions, particularly in the thalamus, where VIM-IR cells were nearly absent. About 20% of all VIM-IR astrocytes presented a twin cell morphology, a phenomenon rarely observed for GFAP-IR astrocytes. Furthermore VIM-IR astrocytes in the striatum were often seen to extend numerous parallel processes which seemed to give rise to large VIM-IR fiber bundles projecting over long distances. Moreover, morphometric analyses revealed that VIM-IR astrocytes were more complex than their mouse counterparts in functionally homologous brain regions, as has been previously reported for GFAP-IR astrocytes. Lastly, the density of GFAP-IR astrocytes in gray and white matter were inversely correlated with vascular density, but for VIM-IR astrocytes this was only the case in gray matter, suggesting that gliovascular interactions may especially influence the regional heterogeneity of GFAP-IR astrocytes. Taken together, these findings reveal special features displayed uniquely by human VIM-IR astrocytes and illustrate that astrocytes display important region- and marker-specific differences in the healthy human brain.https://www.frontiersin.org/article/10.3389/fnana.2020.00031/fullhumanmouseastrocytevimentinGFAPstereology

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