Estrogenic regulation of claudin 5 and tight junction protein 1 gene expression in zebrafish: A role on blood–brain barrier?

Author:

Pellegrini Elisabeth1,Fernezelian Danielle2,Malleret Cassandra1,Gueguen Marie‐Madeleine1,Patche‐Firmin Jessica2,Rastegar Sepand3ORCID,Meilhac Olivier24,Diotel Nicolas2ORCID

Affiliation:

1. Univ Rennes, Inserm, EHESP, Irset (Institut de recherche en santé, environnement et travail) ‐ UMR_S 1085 Rennes France

2. Université de La Réunion, INSERM, UMR 1188 Diabète athérothrombose Thérapies Réunion Océan Indien (DéTROI) Saint‐Denis France

3. Institute of Biological and Chemical Systems‐Biological Information Processing (IBCS‐BIP) Karlsruhe Institute of Technology (KIT) Karlsruhe Germany

4. CHU de La Réunion Saint‐Denis France

Abstract

AbstractThe blood–brain barrier (BBB) is a physical interface between the blood and the brain parenchyma, playing key roles in brain homeostasis. In mammals, the BBB is established thanks to tight junctions between cerebral endothelial cells, involving claudin, occludin, and zonula occludens proteins. Estrogens have been documented to modulate BBB permeability. Interestingly, in the brain of zebrafish, the estrogen‐synthesizing activity is strong due to the high expression of Aromatase B protein, encoded by the cyp19a1b gene, in radial glial cells (neural stem cells). Given the roles of estrogens in BBB function, we investigated their impact on the expression of genes involved in BBB tight junctions. We treated zebrafish embryos and adult males with 17β‐estradiol and observed an increased cerebral expression of tight junction and claudin 5 genes in adult males only. In females, treatment with the nuclear estrogen receptor antagonist (ICI182,780) had no impact. Interestingly, telencephalic injuries performed in males decreased tight junction gene expression that was partially reversed with 17β‐estradiol. This was further confirmed by extravasation experiments of Evans blue showing that estrogenic treatment limits BBB leakage. We also highlighted the intimate links between endothelial cells and neural stem cells, suggesting that cholesterol and peripheral steroids could be taken up by endothelial cells and used as precursors for estrogen synthesis by neural stem cells. Together, our results show that zebrafish provides an alternative model to further investigate the role of steroids on the expression of genes involved in BBB integrity, both in constitutive and regenerative physiological conditions. The link we described between capillaries endothelial cells and steroidogenic neural cells encourages the use of this model in understanding the mechanisms by which peripheral steroids get into neural tissue and modulate neurogenic activity.

Publisher

Wiley

Subject

General Neuroscience

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