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Cerebral Waste Accumulation and Glymphatic Clearance as Mechanisms of Human Neurological Diseases

The brain is a complex system that requires continual regulation of parenchymal pressure, osmolarity, and waste removal for optimal function; despite this, human brain lacks any obvious extension of lymphatic circulation for moderating fluid and waste regulation. We recapitulate herein a recent anal...

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Autores principales: Dadas, Aaron, Washington, Jolewis, Janigro, Damir
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2016
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6261417/
https://www.ncbi.nlm.nih.gov/pubmed/30506062
http://dx.doi.org/10.29245/2572.942X/2016/7.1082
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author Dadas, Aaron
Washington, Jolewis
Janigro, Damir
author_facet Dadas, Aaron
Washington, Jolewis
Janigro, Damir
author_sort Dadas, Aaron
collection PubMed
description The brain is a complex system that requires continual regulation of parenchymal pressure, osmolarity, and waste removal for optimal function; despite this, human brain lacks any obvious extension of lymphatic circulation for moderating fluid and waste regulation. We recapitulate herein a recent analysis of proteinaceous waste deposition in the human brain, its observed route of clearance, and the implications of abnormal accumulation along this clearance pathway as a potential mechanism of neurological diseases. This study uncovered an analogous staining pattern of cerebral phosphorylated tau in temporal lobe epilepsy (TLE) and chronic traumatic encephalopathy (CTE). Regardless of the underlying physiopathology, p-tau elimination occurred via circulation through the perivenous space, as predicted by a glymphatic route of clearance. Remarkably, we demonstrated that p-tau is associated with a neurological disease that can develop independent of head trauma, since in both CTE and TLE: 1) Extracellular p-tau followed unidirectional, fluid-driven pathways that led toward the space bordering large (>100 μm diameter) blood vessels; 2) Tau-positive staining occurred within astroglial cells adjacent to blood vessels, which signified transcellular transport of p-tau as a potential secondary efflux route; 3) P-tau frequently appeared clustered within the perivenous space. This waste aggregation bears significant implications in the disruption of interstitial fluid circulation, which may contribute to exacerbation of disease states. A better understanding of waste elimination in the human brain may prove significant as a therapeutic target to improve parenchymal fluid circulation, and consequently, mitigate the hydrostatic, osmotic and oncotic imbalances that often cause or exacerbate brain diseases.
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spelling pubmed-62614172018-11-28 Cerebral Waste Accumulation and Glymphatic Clearance as Mechanisms of Human Neurological Diseases Dadas, Aaron Washington, Jolewis Janigro, Damir J Neurol Neuromedicine Article The brain is a complex system that requires continual regulation of parenchymal pressure, osmolarity, and waste removal for optimal function; despite this, human brain lacks any obvious extension of lymphatic circulation for moderating fluid and waste regulation. We recapitulate herein a recent analysis of proteinaceous waste deposition in the human brain, its observed route of clearance, and the implications of abnormal accumulation along this clearance pathway as a potential mechanism of neurological diseases. This study uncovered an analogous staining pattern of cerebral phosphorylated tau in temporal lobe epilepsy (TLE) and chronic traumatic encephalopathy (CTE). Regardless of the underlying physiopathology, p-tau elimination occurred via circulation through the perivenous space, as predicted by a glymphatic route of clearance. Remarkably, we demonstrated that p-tau is associated with a neurological disease that can develop independent of head trauma, since in both CTE and TLE: 1) Extracellular p-tau followed unidirectional, fluid-driven pathways that led toward the space bordering large (>100 μm diameter) blood vessels; 2) Tau-positive staining occurred within astroglial cells adjacent to blood vessels, which signified transcellular transport of p-tau as a potential secondary efflux route; 3) P-tau frequently appeared clustered within the perivenous space. This waste aggregation bears significant implications in the disruption of interstitial fluid circulation, which may contribute to exacerbation of disease states. A better understanding of waste elimination in the human brain may prove significant as a therapeutic target to improve parenchymal fluid circulation, and consequently, mitigate the hydrostatic, osmotic and oncotic imbalances that often cause or exacerbate brain diseases. 2016-10-15 2016 /pmc/articles/PMC6261417/ /pubmed/30506062 http://dx.doi.org/10.29245/2572.942X/2016/7.1082 Text en http://creativecommons.org/licenses/by/4.0/ This article is distributed under the terms of the Creative Commons Attribution 4.0 International License
spellingShingle Article
Dadas, Aaron
Washington, Jolewis
Janigro, Damir
Cerebral Waste Accumulation and Glymphatic Clearance as Mechanisms of Human Neurological Diseases
title Cerebral Waste Accumulation and Glymphatic Clearance as Mechanisms of Human Neurological Diseases
title_full Cerebral Waste Accumulation and Glymphatic Clearance as Mechanisms of Human Neurological Diseases
title_fullStr Cerebral Waste Accumulation and Glymphatic Clearance as Mechanisms of Human Neurological Diseases
title_full_unstemmed Cerebral Waste Accumulation and Glymphatic Clearance as Mechanisms of Human Neurological Diseases
title_short Cerebral Waste Accumulation and Glymphatic Clearance as Mechanisms of Human Neurological Diseases
title_sort cerebral waste accumulation and glymphatic clearance as mechanisms of human neurological diseases
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6261417/
https://www.ncbi.nlm.nih.gov/pubmed/30506062
http://dx.doi.org/10.29245/2572.942X/2016/7.1082
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