Spatial distribution of Reissner's fiber glycoproteins in the filum terminale of the rat and rabbit

The subcommissural organ secretes into the third ventricle glycoproteins that condense to form the Reissner′s fiber (RF). At the distal end of the central canal of the spinal cord, the RF‐glycoproteins accumulate in the form of an irregular mass known as massa caudalis. Antibodies against RF‐glycoproteins and a set of lectins were used at the light and electron microscopic level to investigate the spatial distribution of the massa caudalis material in the rat and rabbit filum terminale. In the sacral region of the rat, the central canal presents gaps between the ependymal cells through which RF‐glycoproteins spread out. The bulk of massa caudalis material, however, escapes through openings in the dorsal wall of the terminal ventricle. In the rabbit, the massa caudalis is formed within the ependymal canal, at the level of the second coccygeal vertebra, it accumulates within preterminal and terminal dilatations of the central canal, and it escapes out through gaps in the dorsal ependymal wall of the terminal ventricle. The existence of wide intercellular spaces and a large orifice (neuroporous) in the dorsal ependymal wall of the terminal ventricle, and the passage of RF‐material through them, appear to be conserved evolutionary features. After leaving the terminal ventricle of the rat and rabbit, RF‐glycoproteins establish a close spatial association with the numerous blood vessels irrigating the filum terminale, suggesting that in these species the blood vessels are the site of destination of the RF‐glycoproteins escaping from the central canal, thus resembling the situation found in lower vertebrates. When passing from the RF stage to the massa caudalis stage, the rabbit RF‐glycoproteins lose their sialic acid residues, exposing galactose as the terminal residue. Since this sialic acid‐galactose modification of RF‐glycoproteins had also been descried in lamprey larvae, it may be regarded as a conserved evolutionary feature associated with the formation of the massa caudalis. Microsc. Res. Tech. 52:552–563, 2001. © 2001 Wiley‐Liss, Inc.