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In vivo and in vitro formation of the junctional complex in choroid epithelium (1977)

Dermietzel, R. ; Meller, K. ; Tetzlaff, W. ; [et al.]

Springer

Cell & tissue research 181 (1977), S. 427-441

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ISSN: 1432-0878

Keywords: Chick embryo ; Choroid epithelium ; Junctional complex ; Development ; Freeze-etching

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The Junctional complex of choroid epithelial cells was studied during in vivo formation, disaggregation after trypsin treatment, and in vitro reaggregation. The in vivo formation begins with the occurrence of amorphous patches of particles followed by the formation of small particulate rows and polygonal-ordered particle assemblies. Further arrangement of the zonula occludens continues with the confluence of particles and smooth contoured ridges. At the 9th day stage a fully developed zonula occludens has developed. In a subsequent step nexus become integrated within the tight junction formation. Disaggregation after trypsination results in fragmentation of the zonulae occludentes. Parts of the disassembling aggregates become incorporated in vacuoles indicating an endocytotic mode of “digestion”. The in vitro reconstruction of the zonula occludens proceeds from remnants of the former zonula occludens. On the 3rd to 4th day of cultivation mature tight junctions are visible. In vitro integrations of nexus were observed during a later phase. On the 7th day, cultivated choroid epithelial cells reveal well differentiated Junctional complexes consisting of continuous zonulae occludentes and integrated gap junctions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00221766

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Pattern of glucose transporter (Glut 1) expression in embryonic brains is related to maturation of bood-brain barrier tightness (1992)

Dermietzel, R. ; Krause, D. ; Kremer, M. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

American Journal of Anatomy 193 (1992), S. 152-163

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ISSN: 0002-9106

Keywords: Cerebral endothelium ; Development ; Immunocytochemistry ; Rat ; Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: A constant supply of blood-borne glucose is vital to cerebral metabolism. Although transport of glucose into the nervous tissue, effectively separated from the blood by a functional barrier (the blood-brain barrier, BBB), is one of the essential properties of the cerebral endothelium, little is known about its metabolic regulation and developmental expression in the BBB. In this study we provide evidence by immunocytochemistry that the pattern of the brain endothelial glucose transporter in rat brains (BBB-GT), immunologically homologous with the human hepatoma (G2), human erythrocyte transporter (Glut 1), changes with BBB maturation. While the neuroepithelium at embryonic days 12 and 13 shows a high incidence of immuno-detectable BBB-GT, vascularisation of the cerebral anlage and subsequent development of vascular tightness, as evidenced by intravascularly applied horseradish peroxidase and fluorescinated dextrans, is accompanied by a significant reduction BBB-GT expression in neuroepithelial cells and confinement of BBB-GT expression to the cerebral endothelium. Immunoblots and Northern blots of embryonic brain homogenates corroborate this change in BBB-GT expression in the brain anlage at the time of BBB maturation. However, low molecular weight glucose transporters, presumed to be of non-endothelial origin, are less dramatically reduced. The development of BBB tightness, therefore, seems to play a pivotal role in the pattern of BBB-GT expression during brain differentiation.

Additional Material: 6 Ill.