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The evolutionarily conserved choroid plexus contributes to the homeostasis of brain ventricles in zebrafish

Inyoung Jeong, Søren Norge Andreassen, Linh Hoang, Morgane Poulain, Yongbo Seo, Hae‐Chul Park, Maximilian Fürthauer, Nanna MacAulay, Nathalie Jurisch‐Yaksi

2024Cell Reports24 citationsDOIOpen Access PDF

Abstract

The choroid plexus (ChP) produces cerebrospinal fluid (CSF). It also contributes to brain development and serves as the CSF-blood barrier. Prior studies have identified transporters on the epithelial cells that transport water and ions from the blood vasculature to the ventricles and tight junctions involved in the CSF-blood barrier. Yet, how the ChP epithelial cells control brain physiology remains unresolved. We use zebrafish to provide insights into the physiological roles of the ChP. Upon histological and transcriptomic analyses, we identify that the zebrafish ChP is conserved with mammals and expresses transporters involved in CSF secretion. Next, we show that the ChP epithelial cells secrete proteins into CSF. By ablating the ChP epithelial cells, we identify a reduction of the ventricular sizes without alterations of the CSF-blood barrier. Altogether, our findings reveal that the zebrafish ChP is conserved and contributes to the size and homeostasis of the brain ventricles.

Topics & Concepts

Choroid plexusZebrafishCerebrospinal fluidLateral ventriclesHomeostasisCell biologyBlood–brain barrierBiologySecretionTransporterTranscriptomeCardiac VentricleTight junctionCentral nervous systemAnatomyNeuroscienceInternal medicineGeneEndocrinologyBiochemistryGene expressionMedicineVentricleFetal and Pediatric Neurological DisordersZebrafish Biomedical Research ApplicationsNeonatal and fetal brain pathology