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Literature DB >> 16341584

Ependymal cell differentiation and GLUT1 expression is a synchronous process in the ventricular wall.

Carmen Silva-Alvarez¹, Mónica Carrasco, Carolina Balmaceda-Aguilera, Patricia Pastor, María de los Angeles García, Karin Reinicke, Luis Aguayo, Benedicto Molina, Manuel Cifuentes, Rodolfo Medina, Francisco Nualart.

Abstract

Ependymal cells appear to be totally differentiated during the first 3 weeks in the mouse brain. Early during postnatal development ependymal cells differentiate and undergo metabolic activation, which is accompanied by increased glucose uptake. We propose that ependymal cells induce an overexpression of the glucose transporter, GLUT1, during the first 2 weeks after delivery in order to maintain the early metabolic activation. During the first postnatal day, GLUT1 is strongly induced in the upper region of the third ventricle and in the ventral area of the rostral cerebral aqueduct. During the next 4 days, GLUT1 is expressed in all differentiated ependymal cells of the third ventricle and in hypothalamic tanycytes. At the end of the first week, ependymal cell differentiation and GLUT1 overexpression is concentrated in the latero-ventral area of the aqueduct. We propose that ependymal cell differentiation and GLUT1 overexpression is a synchronous process in the ventricular wall.

Entities: Chemical Gene Species

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Year: 2005 PMID： 16341584 DOI： 10.1007/s11064-005-8794-z

Source DB: PubMed Journal: Neurochem Res ISSN： 0364-3190 Impact factor: 3.996

29 in total

1. Expression of the hexose transporters GLUT1 and GLUT2 during the early development of the human brain.

Authors: F Nualart; A Godoy; K Reinicke
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2. A second look at the barriers of the medial basal hypothalamus.

Authors: B Peruzzo; F E Pastor; J L Blázquez; K Schöbitz; B Peláez; P Amat; E M Rodríguez
Journal: Exp Brain Res Date: 2000-05 Impact factor: 1.972

Review 3. Postnatal development of radial glia and the ventricular zone (VZ): a continuum of the neural stem cell compartment.

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5. Immunohistochemical demonstration of glycogen phosphorylase in rat brain slices.

Authors: B Pfeiffer; K Elmer; W Roggendorf; P H Reinhart; B Hamprecht
Journal: Histochemistry Date: 1990

6. Cytochemical identification of cerebral glycogen and glucose-6-phosphatase activity under normal and experimental conditions. II. Choroid plexus and ependymal epithelia, endothelia and pericytes.

Authors: A M Cataldo; R D Broadwell
Journal: J Neurocytol Date: 1986-08

7. A morphometric study on the development of the lateral ventricle choroid plexus, choroid plexus capillaries and ventricular ependyma in the rat.

Authors: R F Keep; H C Jones
Journal: Brain Res Dev Brain Res Date: 1990-10-01

8. Regulation of the glucose transporter in developing rat brain.

Authors: W Sivitz; S DeSautel; P S Walker; J E Pessin
Journal: Endocrinology Date: 1989-04 Impact factor: 4.736

9. Developmental expression of GLUT1 and GLUT3 glucose transporters in rat brain.

Authors: S J Vannucci
Journal: J Neurochem Date: 1994-01 Impact factor: 5.372

10. Multiple restricted lineages in the embryonic rat cerebral cortex.

Authors: E A Grove; B P Williams; D Q Li; M Hajihosseini; A Friedrich; J Price
Journal: Development Date: 1993-02 Impact factor: 6.868

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4. Ependymal alterations in sudden intrauterine unexplained death and sudden infant death syndrome: possible primary consequence of prenatal exposure to cigarette smoking.

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5. Myosin IXa regulates epithelial differentiation and its deficiency results in hydrocephalus.

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6. Congenital hydrocephalus associated with abnormal subcommissural organ in mice lacking huntingtin in Wnt1 cell lineages.

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