Occludin as direct target for glucocorticoid-induced improvement of blood-brain barrier properties in a murine in vitro system

doi:10.1113/jphysiol.2005.084038

Occludin as direct target for glucocorticoid-induced improvement of blood–brain barrier properties in a murine in vitro system

Carola Förster¹, Christine Silwedel¹, Nikola Golenhofen¹, Malgorzata Burek¹, Silke Kietz², Joachim Mankertz³ and Detlev Drenckhahn¹

¹ Institute of Anatomy and Cell Biology, University of Würzburg, Koellikerstrasse 6, D-97070 Würzburg, Germany
² Department of Pediatrics, Martin-Luther University Halle-Wittenberg, Halle, Germany
³ Medizinische Klinik I Gastroenterologie und Infektiologie, Freie Universität Berlin, Hindenburgdamm 30, 12200 Berlin, Germany

Homeostasis of the central nervous system (CNS) microenvironmentis essential for its normal function. It is maintained by theblood–brain barrier (BBB) which regulates the transportof molecules from blood into brain and backwards. The integrityof the BBB is compromised in many disorders of the human CNS;therapeutical strategies for several of these diseases includetreatment with glucocorticoids, but the molecular basis of howglucocorticoids regulate BBB permeability is not understood.Here, we report the generation and characterization of a murineimmortalized brain (cerebral) capillary endothelial (cEND) cellline which expresses the BBB marker occludin at intercellulartight junctions (TJ). Hydrocortisone at physiological concentrationsinduced upregulation of occludin, accompanied by a threefoldenhancement of transendothelial electrical resistance to valuesup to 1000 ${Omega}$ cm². Insulin enhanced the glucocorticoid response.At the molecular level, hydrocortisone induces increase of occludinat protein and mRNA levels by activation of the glucocorticoidreceptor (GR) and its binding to putative glucocorticoid responsiveelements in the occludin promoter. At the same time, insulinpotentiated the ligand-dependent GR transactivation via inductionof the GR in this in vitro system. This study thus providesinsights into the molecular processes of barrier genesis, andmay help to elucidate mechanisms of brain pathology at the microvascularlevel.

(Received 31 January 2005; accepted after revision 17 March 2005; first published online 24 March 2005)
Corresponding author C. Förster: Institute of Anatomy and Cell Biology, University of Würzburg, Koellikerstrasse 6, D-97070 Würzburg, Germany. Email: carola.foerster{at}mail.uni-wuerzburg.de

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