Lymphatic network drainage resolves cerebral edema and facilitates recovery from experimental cerebral malaria.

Michael J. Haley; Ruben Barroso; Dhifaf A. Jasim; Megan Haigh; Jack Green; Ben Dickie; Alister Craig; David Brough; Kevin N. Couper

doi:10.1016/j.celrep.2024.114217

Lymphatic network drainage resolves cerebral edema and facilitates recovery from experimental cerebral malaria.

Michael J. Haley, Ruben Barroso, Dhifaf A. Jasim, Megan Haigh, Jack Green, Ben Dickie, Alister Craig, David Brough, Kevin N. Couper

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

While brain swelling, associated with fluid accumulation, is a known feature of pediatric cerebral malaria (CM), how fluid and macromolecules are drained from the brain during recovery from CM is unknown. Using the experimental CM (ECM) model, we show that fluid accumulation in the brain during CM is driven by vasogenic edema and not by perivascular cerebrospinal fluid (CSF) influx. We identify that fluid and molecules are removed from the brain extremely quickly in mice with ECM to the deep cervical lymph nodes (dcLNs), predominantly through basal routes and across the cribriform plate and the nasal lymphatics. In agreement, we demonstrate that ligation of the afferent lymphatic vessels draining to the dcLNs significantly impairs fluid drainage from the brain and lowers anti-malarial drug recovery from the ECM syndrome. Collectively, our results provide insight into the pathways that coordinate recovery from CM.

Original language	English
Article number	114217
Pages (from-to)	114217
Journal	Cell Reports
Volume	43
Issue number	5
Early online date	9 May 2024
DOIs	https://doi.org/10.1016/j.celrep.2024.114217
Publication status	Published - 28 May 2024

Keywords

brain
cerebral edema
cerebral malaria
CP: Neuroscience
lymphatics
Plasmodium

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.celrep.2024.114217Licence: CC BY

PIIS221112472400545XFinal published version, 9.31 MBLicence: CC BY

Cite this

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title = "Lymphatic network drainage resolves cerebral edema and facilitates recovery from experimental cerebral malaria.",

abstract = "While brain swelling, associated with fluid accumulation, is a known feature of pediatric cerebral malaria (CM), how fluid and macromolecules are drained from the brain during recovery from CM is unknown. Using the experimental CM (ECM) model, we show that fluid accumulation in the brain during CM is driven by vasogenic edema and not by perivascular cerebrospinal fluid (CSF) influx. We identify that fluid and molecules are removed from the brain extremely quickly in mice with ECM to the deep cervical lymph nodes (dcLNs), predominantly through basal routes and across the cribriform plate and the nasal lymphatics. In agreement, we demonstrate that ligation of the afferent lymphatic vessels draining to the dcLNs significantly impairs fluid drainage from the brain and lowers anti-malarial drug recovery from the ECM syndrome. Collectively, our results provide insight into the pathways that coordinate recovery from CM.",

keywords = "brain, cerebral edema, cerebral malaria, CP: Neuroscience, lymphatics, Plasmodium",

author = "Haley, \{Michael J.\} and Ruben Barroso and Jasim, \{Dhifaf A.\} and Megan Haigh and Jack Green and Ben Dickie and Alister Craig and David Brough and Couper, \{Kevin N.\}",

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T1 - Lymphatic network drainage resolves cerebral edema and facilitates recovery from experimental cerebral malaria.

AU - Haley, Michael J.

AU - Barroso, Ruben

AU - Jasim, Dhifaf A.

AU - Haigh, Megan

AU - Green, Jack

AU - Dickie, Ben

AU - Craig, Alister

AU - Brough, David

AU - Couper, Kevin N.

PY - 2024/5/28

Y1 - 2024/5/28

N2 - While brain swelling, associated with fluid accumulation, is a known feature of pediatric cerebral malaria (CM), how fluid and macromolecules are drained from the brain during recovery from CM is unknown. Using the experimental CM (ECM) model, we show that fluid accumulation in the brain during CM is driven by vasogenic edema and not by perivascular cerebrospinal fluid (CSF) influx. We identify that fluid and molecules are removed from the brain extremely quickly in mice with ECM to the deep cervical lymph nodes (dcLNs), predominantly through basal routes and across the cribriform plate and the nasal lymphatics. In agreement, we demonstrate that ligation of the afferent lymphatic vessels draining to the dcLNs significantly impairs fluid drainage from the brain and lowers anti-malarial drug recovery from the ECM syndrome. Collectively, our results provide insight into the pathways that coordinate recovery from CM.

AB - While brain swelling, associated with fluid accumulation, is a known feature of pediatric cerebral malaria (CM), how fluid and macromolecules are drained from the brain during recovery from CM is unknown. Using the experimental CM (ECM) model, we show that fluid accumulation in the brain during CM is driven by vasogenic edema and not by perivascular cerebrospinal fluid (CSF) influx. We identify that fluid and molecules are removed from the brain extremely quickly in mice with ECM to the deep cervical lymph nodes (dcLNs), predominantly through basal routes and across the cribriform plate and the nasal lymphatics. In agreement, we demonstrate that ligation of the afferent lymphatic vessels draining to the dcLNs significantly impairs fluid drainage from the brain and lowers anti-malarial drug recovery from the ECM syndrome. Collectively, our results provide insight into the pathways that coordinate recovery from CM.

KW - brain

KW - cerebral edema

KW - cerebral malaria

KW - CP: Neuroscience

KW - lymphatics

KW - Plasmodium

U2 - 10.1016/j.celrep.2024.114217

DO - 10.1016/j.celrep.2024.114217

M3 - Article

SN - 2639-1856

VL - 43

SP - 114217

JO - Cell Reports

JF - Cell Reports

IS - 5

M1 - 114217

ER -

Lymphatic network drainage resolves cerebral edema and facilitates recovery from experimental cerebral malaria.

Abstract

Keywords

UN SDGs

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