Expression of aquaporin-1 in the choroid plexus in communicating and non-communicating hydrocephalic rats

Hydrocephalus is an accumulation of cerebrospinal fluid (CSF) with dilatation of brain ventricles which can be either communicating or non-communicating. Multiple pathophysiological mechanisms underlie the appearance of hydrocephalus, which has many different causes including birth defects, brain hemorrhage, infection, meningitis, tumor, or head injury. The choroid plexuses (ChP) are circumventricular structures closely related to the above-mentioned pathophysiological mechanisms of the CSF, and aquaporin-1 (AQP1) is the water channel directly implicated in CSF production. Our studies with hydrocephalic rats revealed an increase and redistribution of AQP1 in the ChP, with AQP1 being expressed not only in the cell apical pole, but also in the cell basal pole and in the stroma. The immunohistochemical changes observed in both communicating and non-communicating hydrocephalus suggest a variation in the efficiency of the cells of the ChP, where AQP1 could perform both CSF production and reabsorption in order to delay ventricular dilatation

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Immunohistochemical study of Pax6 and Reissner fibre expression in the prenatal development of the mouse subcommissural organ

The subcommissural organ (SCO) releases glycoproteins into the ventricular cerebrospinal fluid (CSF), where they form Reissner's fibre (RF) and also secretes a CSF-soluble material different from RF-material. Pax6 is a transcription factor important for the regulation of cell proliferation, migration and differentiation in the developing brain. In the present work, we studied wild-type, heterozygous and homozygous Sey mice to compare the expression of RF-antibody and Pax6 in the SCO and adjacent structures. In wild-type mice between E15 to E18, we observed Pax6 expression in cells surrounding the secretory cells of the SCO, and RF-immunoreactive material only in the SCO ependymal cell layer and its basal process. In the heterozygous mice, the neuroanatomical structure of the SCO was present, but RF-antibody staining and Pax6 expression was scarce or almost undetectable; in the homozygous mice neither SCO nor other epithalamic structures were found. We suggest that Pax6 expression at the periphery of the SCO is essential for the development and activity of the organ (AU)

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