Fluids and barriers of the CNS establish immune privilege by confining immune surveillance to a two-walled <it>castle moat </it>surrounding the CNS <it>castle</it>

<p>Abstract</p> <p>Neuronal activity within the central nervous system (CNS) strictly depends on homeostasis and therefore does not tolerate uncontrolled entry of blood components. It has been generally believed that under normal conditions, the endothelial blood-brain barrier (BBB...

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Main Authors: Engelhardt Britta, Coisne Caroline
Format: Article
Language:English
Published: BMC 2011-01-01
Series:Fluids and Barriers of the CNS
Online Access:http://www.fluidsbarrierscns.com/content/8/1/4
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spelling doaj-b6b06a97d4a64047900de423ae9b4cf82020-11-24T21:33:53ZengBMCFluids and Barriers of the CNS2045-81182011-01-0181410.1186/2045-8118-8-4Fluids and barriers of the CNS establish immune privilege by confining immune surveillance to a two-walled <it>castle moat </it>surrounding the CNS <it>castle</it>Engelhardt BrittaCoisne Caroline<p>Abstract</p> <p>Neuronal activity within the central nervous system (CNS) strictly depends on homeostasis and therefore does not tolerate uncontrolled entry of blood components. It has been generally believed that under normal conditions, the endothelial blood-brain barrier (BBB) and the epithelial blood-cerebrospinal fluid barrier (BCSFB) prevent immune cell entry into the CNS. This view has recently changed when it was realized that activated T cells are able to breach the BBB and the BCSFB to perform immune surveillance of the CNS. Here we propose that the immune privilege of the CNS is established by the specific morphological architecture of its borders resembling that of a medieval castle. The BBB and the BCSFB serve as the <it>outer walls </it>of the castle, which can be breached by activated immune cells serving as messengers for outside dangers. Having crossed the BBB or the BCSFB they reach the <it>castle moat</it>, namely the cerebrospinal fluid (CSF)-drained leptomeningeal and perivascular spaces of the CNS. Next to the CNS parenchyma, the <it>castle moat </it>is bordered by a second <it>wall</it>, the <it>glia limitans</it>, composed of astrocytic foot processes and a parenchymal basement membrane. Inside the <it>castle</it>, that is the CNS parenchyma proper, the <it>royal family </it>of sensitive neurons resides with their <it>servants</it>, the glial cells. Within the CSF-drained <it>castle moat</it>, macrophages serve as guards collecting all the information from within the <it>castle</it>, which they can present to the immune-surveying T cells. If in their communication with the <it>castle moat </it>macrophages, T cells recognize their specific antigen and see that the <it>royal family is </it>in danger, they will become activated and by opening <it>doors in the outer wall of the castle </it>allow the entry of additional immune cells into the <it>castle moat</it>. From there, immune cells may breach the inner <it>castle wall </it>with the aim to defend the <it>castle inhabitants </it>by eliminating the invading enemy. If the immune response by unknown mechanisms turns against self, that is the <it>castle inhabitants</it>, this may allow for continuous entry of immune cells into the <it>castle </it>and lead to the death of the <it>castle inhabitants</it>, and finally members of the <it>royal family</it>, the neurons. This review will summarize the molecular traffic signals known to allow immune cells to breach the outer and inner <it>walls </it>of the CNS <it>castle moat </it>and will highlight the importance of the CSF-drained <it>castle moat </it>in maintaining immune surveillance and in mounting immune responses in the CNS.</p> http://www.fluidsbarrierscns.com/content/8/1/4
collection DOAJ
language English
format Article
sources DOAJ
author Engelhardt Britta
Coisne Caroline
spellingShingle Engelhardt Britta
Coisne Caroline
Fluids and barriers of the CNS establish immune privilege by confining immune surveillance to a two-walled <it>castle moat </it>surrounding the CNS <it>castle</it>
Fluids and Barriers of the CNS
author_facet Engelhardt Britta
Coisne Caroline
author_sort Engelhardt Britta
title Fluids and barriers of the CNS establish immune privilege by confining immune surveillance to a two-walled <it>castle moat </it>surrounding the CNS <it>castle</it>
title_short Fluids and barriers of the CNS establish immune privilege by confining immune surveillance to a two-walled <it>castle moat </it>surrounding the CNS <it>castle</it>
title_full Fluids and barriers of the CNS establish immune privilege by confining immune surveillance to a two-walled <it>castle moat </it>surrounding the CNS <it>castle</it>
title_fullStr Fluids and barriers of the CNS establish immune privilege by confining immune surveillance to a two-walled <it>castle moat </it>surrounding the CNS <it>castle</it>
title_full_unstemmed Fluids and barriers of the CNS establish immune privilege by confining immune surveillance to a two-walled <it>castle moat </it>surrounding the CNS <it>castle</it>
title_sort fluids and barriers of the cns establish immune privilege by confining immune surveillance to a two-walled <it>castle moat </it>surrounding the cns <it>castle</it>
publisher BMC
series Fluids and Barriers of the CNS
issn 2045-8118
publishDate 2011-01-01
description <p>Abstract</p> <p>Neuronal activity within the central nervous system (CNS) strictly depends on homeostasis and therefore does not tolerate uncontrolled entry of blood components. It has been generally believed that under normal conditions, the endothelial blood-brain barrier (BBB) and the epithelial blood-cerebrospinal fluid barrier (BCSFB) prevent immune cell entry into the CNS. This view has recently changed when it was realized that activated T cells are able to breach the BBB and the BCSFB to perform immune surveillance of the CNS. Here we propose that the immune privilege of the CNS is established by the specific morphological architecture of its borders resembling that of a medieval castle. The BBB and the BCSFB serve as the <it>outer walls </it>of the castle, which can be breached by activated immune cells serving as messengers for outside dangers. Having crossed the BBB or the BCSFB they reach the <it>castle moat</it>, namely the cerebrospinal fluid (CSF)-drained leptomeningeal and perivascular spaces of the CNS. Next to the CNS parenchyma, the <it>castle moat </it>is bordered by a second <it>wall</it>, the <it>glia limitans</it>, composed of astrocytic foot processes and a parenchymal basement membrane. Inside the <it>castle</it>, that is the CNS parenchyma proper, the <it>royal family </it>of sensitive neurons resides with their <it>servants</it>, the glial cells. Within the CSF-drained <it>castle moat</it>, macrophages serve as guards collecting all the information from within the <it>castle</it>, which they can present to the immune-surveying T cells. If in their communication with the <it>castle moat </it>macrophages, T cells recognize their specific antigen and see that the <it>royal family is </it>in danger, they will become activated and by opening <it>doors in the outer wall of the castle </it>allow the entry of additional immune cells into the <it>castle moat</it>. From there, immune cells may breach the inner <it>castle wall </it>with the aim to defend the <it>castle inhabitants </it>by eliminating the invading enemy. If the immune response by unknown mechanisms turns against self, that is the <it>castle inhabitants</it>, this may allow for continuous entry of immune cells into the <it>castle </it>and lead to the death of the <it>castle inhabitants</it>, and finally members of the <it>royal family</it>, the neurons. This review will summarize the molecular traffic signals known to allow immune cells to breach the outer and inner <it>walls </it>of the CNS <it>castle moat </it>and will highlight the importance of the CSF-drained <it>castle moat </it>in maintaining immune surveillance and in mounting immune responses in the CNS.</p>
url http://www.fluidsbarrierscns.com/content/8/1/4
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