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Diffusion MRI reveals in vivo and non-invasively changes in astrocyte function induced by an aquaporin-4 inhibitor

Clément S. Debaker, Boucif Djemaï, Luisa Ciobanu, Tomokazu Tsurugizawa, Denis Le Bihan

2020PLoS ONE55 citationsDOIOpen Access PDF

Abstract

The Glymphatic System (GS) has been proposed as a mechanism to clear brain tissue from waste. Its dysfunction might lead to several brain pathologies, including the Alzheimer's disease. A key component of the GS and brain tissue water circulation is the astrocyte which is regulated by acquaporin-4 (AQP4), a membrane-bound water channel on the astrocytic end-feet. Here we investigated the potential of diffusion MRI to monitor astrocyte activity in a mouse brain model through the inhibition of AQP4 channels with TGN-020. Upon TGN-020 injection, we observed a significant decrease in the Sindex, a diffusion marker of tissue microstructure, and a significant increase of the water diffusion coefficient (sADC) in cerebral cortex and hippocampus compared to saline injection. These results indicate the suitability of diffusion MRI to monitor astrocytic activity in vivo and non-invasively.

Topics & Concepts

Aquaporin 4AstrocyteIn vivoGlymphatic systemAquaporinHippocampusEffective diffusion coefficientChemistryDiffusionWater transportNeuroscienceBiophysicsPathologyMedicineCentral nervous systemBiologyMagnetic resonance imagingBiochemistryPhysicsWater flowCerebrospinal fluidThermodynamicsEnvironmental engineeringRadiologyEngineeringBiotechnologyAdvanced Neuroimaging Techniques and ApplicationsCerebrospinal fluid and hydrocephalusFetal and Pediatric Neurological Disorders
Diffusion MRI reveals in vivo and non-invasively changes in astrocyte function induced by an aquaporin-4 inhibitor | Litcius