Ontogenesis of the secretory epithelium of the bovine subcommissural organ. A histofluorescence study using lectins and monoclonal antibodies.
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Abstract
A spatio-temporal analysis of the differentiation of a group of specialized (secretory) ependymal cells in the subcommissural organ (SCO) of the brain was undertaken in the bovine using a monoclonal antibody (C1B8A8) which is specific of the secretory process in this organ. In addition, lectins (concanavalin agglutinin (Con A), Lens culinaris agglutinin (LCA), wheat germ agglutinin (WGA), and Phaseolus vulgaris agglutinin (PHA] were used to analyse the maturation of the carbohydrate moieties of the secretory product (subcommissuralin). Monoclonal antibody NC-1 specific to a complex carbohydrate epitope including a terminal 3-sulfoglucuronyl residue similar to HNK-1 was also tested to compare the reactivity of the SCO with that of other brain structures. These cells express a specific antigen related to the known secretory activity of the SCO during early embryogenesis (2 months). This antigen is recognized by C1B8A8 antibody and by Con A suggesting that high mannose-type glycoproteins are synthesized at this stage. Later on (approximately 3.5 months), appearance of C1B8A8, WGA, LCA, L- and E-PHA-positive material in the apical lining of the ependymal cells, close to the ventricular cavity, suggests that maturation of the complex-type glycoproteins (Asn-linked) occurs at this stage. Presence of secretory material in the CSF and Reissner's fibre could be detected using the same probes at a stage of 4 months. As early as 2 months NC-1-positive material was detected in the ependyma of the mesencephalic roof, while no reaction occurred in the SCO epithelium. This suggests that the carbohydrate moieties of subcommissuralin is different from that of ependymins beta and gamma. Using specific monoclonal antibodies, molecular characterization of subcommissuralin and experimental analyses on its accurate role in brain development will further our tentative comparison with ependymins. The secretory ependymal cells in the SCO express a particular phenotype and could represent an increasing model to study cell differentiation in the brain.