The bovine subcommissural organ: cytochemical and immunochemical characterization of the secretory process.

Specific glycoproteins of the bovine subcommissural organ (SCO) were studied by means of various techniques: light and electron microscopy, immunoaffinity chromatography, electrophoresis and Western blotting. Use of lectins (Con A, WGA, PHA-E and -L, LCA) allowed to specify the synthesis and release of complex-type glycoproteins that bear high-mannose-carbohydrate chains in their precursor forms and probably triantennary carbohydrate chains in their mature forms. Antibodies raised against SCO extracts were characterized by means of various tests and used to purify specific compounds. Immunopurified fractions using A99 polyclonal antibody contained numerous polypeptides reactive with Con A, their apparent molecular weight (MW) ranging from 240 to 50 kDa. Only two glycopeptides were strongly labeled with WGA (98 and 52/54 kDa MW). Immunopurified fractions using C1B8A8 monoclonal antibody, specific of the complex-type glycoproteins at different steps of glycosylation, showed three specific Con A-reactive polypeptides at 88, 54 and 34 kDa MW. Only the 34 kDa glycopeptide was strongly labeled with WGA. The latter could correspond to the monomeric form of the secreted compound. Electrophoretical analyses of Reissner's fiber material allowed the detection of a WGA-positive smear in the upper part of the blots, suggesting that the complex-type glycoproteins, when released into the CSF, constitute a stable polymer.

A comparative immunocytochemical and immunochemical analysis of glycoproteins synthesized in the bovine subcommissural organ.

To extend our previous immunochemical investigations in the chick embryo (Karoumi et al., 1990 b), we raised antibodies in the rabbit against crude extracts of the subcommissural organ (SCO) of the bovine. The antiserum labeled A99 was absorbed by crude brain extracts and its specificity was tested by different techniques. Comparison of crude SCO and cerebral hemispheres supernatants after immunoblotting allow to identify specific 98, 60, 52, 42, 38, and 32 kDa polypeptides in the SCO profile. Immunoaffinity chromatography on A99 immunoadsorbent of crude SCO, cerebral hemispheres (CH) and classical ependyma (CE) supernatants was followed by electrophoretical analysis and electrotransfer. Concanavalin A (Con A) and wheat germ agglutinin (WGA) labeling procedures demonstrated the presence of numerous glycopeptides specific of crude SCO supernatants and having an apparent molecular weight ranging from 240 to 50 kDa. In the CH-eluted fraction, 50 and 52 kDa glycopeptides were revealed by ConA and WGA, whereas in the CE-immunopurified fraction no band was visualized. The similarity of the chick embryo and bovine electrophoretic pattern corresponding to the SCO eluted fractions speaks in favour of a high degree of conservation of the SCO secretory material and an evolutionary stability of the antigens recognized by A99IgG.

Glycoprotein synthesis in the subcommissural organ of the chick embryo. II. An immunochemical study.

In the chick embryo, A74 immunoaffinity chromatography allowed to purify specific glycoproteins relevant to the SCO ventricular secretory process. The eluted fractions of the subcommissural organ (SCO), the cerebral hemispheres (CH) and the medulla oblongata (MO) were compared using the Concanavalin A (Con A) and wheat germ agglutinin (WGA) staining procedures after western-blotting. Analysis of the optical density of the reactive bands allowed to estimate the relative concentration of the various glycopeptides in the eluted fractions. In the SCO-eluted fractions at least ten Con A-positive glycopeptides were identified, their apparent molecular weight ranging from 240 to 42 kD. Only three of these appeared to be WGA-positive (98, 88, and 52 kD). In the CH-eluted fractions only a 52 kD Con A- and WGA-positive glycopeptide was revealed, while in the MO-eluted fractions a 32 kD glycopeptide was also Con A- and WGA-positive. These results are discussed in regard to the known biosynthesis pathway of complex type glycoproteins.

Glycoprotein synthesis in the subcommissural organ of the chick embryo. I. An ontogenetical study using specific antibodies.

Antibodies were raised in rabbit against crude subcommissural organ (SCO) extract of 19 day old chick embryos. After absorption with crude brain extract, the IgG fraction was purified by ion exchange chromatography. The specificity of the antibodies was controlled by immunostaining and by a competition test between lectins (Concanavalin A-Con A- and wheat germ agglutinin-WGA-) and antibodies (A74 IgG). Using A74 IgG, some ependymal cells containing immunoreactive material (IRM) could be detected in the SCO anlage at 4 days of incubation. During the following stages (5 to 12 days), the immunostaining extended caudal-ward in the SCO epithelium according to a rostro-caudal gradient of differentiation. The appearance of IRM in the secretory ependymal cells of the SCO parallel that of Concanavalin A-positive glycoproteins (Bruel et al., 1987). Secretion of IRM into the ventricular cavity, contributing to the formation of Reissner's fiber (RF) occurred during the 7th day of incubation. The formation of RF was examined at different levels of the spinal cord using A74 IgG, WGA and aldehyde fuchsin (AF) staining. The appearance of SCO specific glycoproteins was observed at 11 days in the central canal but the presence of a non-immunoreactive material at 10 days suggests that the formation of RF probably happens inside a guidance material.