Loss of aquaporin-4 results in glymphatic system dysfunction via brain-wide interstitial fluid stagnation

The glymphatic system is a fluid transport network of cerebrospinal fluid (CSF) entering the brain along arterial perivascular spaces, exchanging with interstitial fluid (ISF), ultimately establishing directional clearance of interstitial solutes. CSF transport is facilitated by the expression of aq...

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Autores principales: Gomolka, Ryszard Stefan, Hablitz, Lauren M, Mestre, Humberto, Giannetto, Michael, Du, Ting, Hauglund, Natalie Linea, Xie, Lulu, Peng, Weiguo, Martinez, Paula Melero, Nedergaard, Maiken, Mori, Yuki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2023
Materias:
Neuroscience
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9995113/
https://www.ncbi.nlm.nih.gov/pubmed/36757363
http://dx.doi.org/10.7554/eLife.82232
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author Gomolka, Ryszard Stefan
Hablitz, Lauren M
Mestre, Humberto
Giannetto, Michael
Du, Ting
Hauglund, Natalie Linea
Xie, Lulu
Peng, Weiguo
Martinez, Paula Melero
Nedergaard, Maiken
Mori, Yuki
author_facet Gomolka, Ryszard Stefan
Hablitz, Lauren M
Mestre, Humberto
Giannetto, Michael
Du, Ting
Hauglund, Natalie Linea
Xie, Lulu
Peng, Weiguo
Martinez, Paula Melero
Nedergaard, Maiken
Mori, Yuki
author_sort Gomolka, Ryszard Stefan
collection PubMed
description The glymphatic system is a fluid transport network of cerebrospinal fluid (CSF) entering the brain along arterial perivascular spaces, exchanging with interstitial fluid (ISF), ultimately establishing directional clearance of interstitial solutes. CSF transport is facilitated by the expression of aquaporin-4 (AQP4) water channels on the perivascular endfeet of astrocytes. Mice with genetic deletion of AQP4 (AQP4 KO) exhibit abnormalities in the brain structure and molecular water transport. Yet, no studies have systematically examined how these abnormalities in structure and water transport correlate with glymphatic function. Here, we used high-resolution 3D magnetic resonance (MR) non-contrast cisternography, diffusion-weighted MR imaging (MR-DWI) along with intravoxel-incoherent motion (IVIM) DWI, while evaluating glymphatic function using a standard dynamic contrast-enhanced MR imaging to better understand how water transport and glymphatic function is disrupted after genetic deletion of AQP4. AQP4 KO mice had larger interstitial spaces and total brain volumes resulting in higher water content and reduced CSF space volumes, despite similar CSF production rates and vascular density compared to wildtype mice. The larger interstitial fluid volume likely resulted in increased slow but not fast MR diffusion measures and coincided with reduced glymphatic influx. This markedly altered brain fluid transport in AQP4 KO mice may result from a reduction in glymphatic clearance, leading to enlargement and stagnation of fluid in the interstitial space. Overall, diffusion MR is a useful tool to evaluate glymphatic function and may serve as valuable translational biomarker to study glymphatics in human disease.
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spelling pubmed-99951132023-03-09 Loss of aquaporin-4 results in glymphatic system dysfunction via brain-wide interstitial fluid stagnation Gomolka, Ryszard Stefan Hablitz, Lauren M Mestre, Humberto Giannetto, Michael Du, Ting Hauglund, Natalie Linea Xie, Lulu Peng, Weiguo Martinez, Paula Melero Nedergaard, Maiken Mori, Yuki eLife Neuroscience The glymphatic system is a fluid transport network of cerebrospinal fluid (CSF) entering the brain along arterial perivascular spaces, exchanging with interstitial fluid (ISF), ultimately establishing directional clearance of interstitial solutes. CSF transport is facilitated by the expression of aquaporin-4 (AQP4) water channels on the perivascular endfeet of astrocytes. Mice with genetic deletion of AQP4 (AQP4 KO) exhibit abnormalities in the brain structure and molecular water transport. Yet, no studies have systematically examined how these abnormalities in structure and water transport correlate with glymphatic function. Here, we used high-resolution 3D magnetic resonance (MR) non-contrast cisternography, diffusion-weighted MR imaging (MR-DWI) along with intravoxel-incoherent motion (IVIM) DWI, while evaluating glymphatic function using a standard dynamic contrast-enhanced MR imaging to better understand how water transport and glymphatic function is disrupted after genetic deletion of AQP4. AQP4 KO mice had larger interstitial spaces and total brain volumes resulting in higher water content and reduced CSF space volumes, despite similar CSF production rates and vascular density compared to wildtype mice. The larger interstitial fluid volume likely resulted in increased slow but not fast MR diffusion measures and coincided with reduced glymphatic influx. This markedly altered brain fluid transport in AQP4 KO mice may result from a reduction in glymphatic clearance, leading to enlargement and stagnation of fluid in the interstitial space. Overall, diffusion MR is a useful tool to evaluate glymphatic function and may serve as valuable translational biomarker to study glymphatics in human disease. eLife Sciences Publications, Ltd 2023-02-09 /pmc/articles/PMC9995113/ /pubmed/36757363 http://dx.doi.org/10.7554/eLife.82232 Text en © 2023, Gomolka et al https://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Neuroscience
Gomolka, Ryszard Stefan
Hablitz, Lauren M
Mestre, Humberto
Giannetto, Michael
Du, Ting
Hauglund, Natalie Linea
Xie, Lulu
Peng, Weiguo
Martinez, Paula Melero
Nedergaard, Maiken
Mori, Yuki
Loss of aquaporin-4 results in glymphatic system dysfunction via brain-wide interstitial fluid stagnation
title Loss of aquaporin-4 results in glymphatic system dysfunction via brain-wide interstitial fluid stagnation
title_full Loss of aquaporin-4 results in glymphatic system dysfunction via brain-wide interstitial fluid stagnation
title_fullStr Loss of aquaporin-4 results in glymphatic system dysfunction via brain-wide interstitial fluid stagnation
title_full_unstemmed Loss of aquaporin-4 results in glymphatic system dysfunction via brain-wide interstitial fluid stagnation
title_short Loss of aquaporin-4 results in glymphatic system dysfunction via brain-wide interstitial fluid stagnation
title_sort loss of aquaporin-4 results in glymphatic system dysfunction via brain-wide interstitial fluid stagnation
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9995113/
https://www.ncbi.nlm.nih.gov/pubmed/36757363
http://dx.doi.org/10.7554/eLife.82232
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