Neurologia medico-chirurgica
Online ISSN : 1349-8029
Print ISSN : 0470-8105
ISSN-L : 0470-8105
Development of GFAP positive Cells and Reactive Changes Associated with Cystic Lesions in HTX Rat Brain
Yasuji YOSHIDAGoyo KOYAKouki TAMAYAMAToshiro KUMANISHISatoshi ABE
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1990 Volume 30 Issue 7 Pages 445-450

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Abstract

HTX rat, a congenital hydrocephalic strain, develops ventricular dilatation and cystic cavities in the cerebral white matter after birth. To investigate the reactive changes in glial cells around these cavities, immunohistochemical staining for glial fibrillary acidic protein (GFAP), a specific marker protein of astrocytes, and bromodeoxyuridine (BrdU), a thymidine analogue, was carried out on 107 Wistar and HTX rat brains from birth to postnatal day (P) 26. Animals were divided into three groups: Group A, Wistar rats as normal controls; Group B, HTX rats with a normal structure or only mild ventricular dilatation without any lesion in the white matter; and Group C, HTX rats with severe ventricular dilatation and cyst formation in the white matter. Group B rats showed similar development of GFAPpositive (GFAP+) cells to that in Group A rats, both morphologically and quantitatively. On the other hand, Group C rats showed definite structural changes in GFAP+ cells around the cystic cavities from P5. These included enriched cytoplasm and thickened cell processes with increased GFAP expression, and enveloped most cyst walls from P10. However, quantitative examination of the percentage of GFAP+ cells in Group C rats showed a similar developmental profile to those in Group A and B rats. Furthermore, the labeling index of BrdU-positive cells, indicating S-phase cells, in the white matter in Group C rats showed a similar decreasing pattern to that in Group A and B rats from P1 to P26. These results indicate that the GFAP+ cells in HTX rats develop in a similar manner to those in Wistar rats, and that the reactive changes in the cyst walls occur immediately after the beginning of GFAP production and have similar structural and functional features of lesion repair to those in adult brain pathology. However, the reactive changes do not involve new cell proliferation.

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© The Japan Neurosurgical Society
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