Summary
A light and electron microscopic study was made of the epiplexus (Kolmer) cells of the cat choroid plexus. These polymorphic, motile cells were typically found juxtaposed to the ventricular surface of the choroidal epithelium. They have many ultrastructural features in common with free macrophages of other systems, namely, an indented nucleus with condensed chromatin, sparse mitochondria and endoplasmic reticulum, free ribosomes, multiple Golgi elements, microtubules, coated surface invaginations and microvesicles, and numerous membrane-limited vacuoles and lysosomal dense bodies. A unique feature of epiplexus cells is the manner in which they are anchored to the choroidal epithelium by the invagination of their surfaces by epithelial cell microvilli and cilia.
Electron dense tracer particles (biological India ink, Thorotrast, ferritin) injected into the cerebral ventricles were ingested rapidly by epiplexus cells. Uptake of the particles was by way of coated surface invaginations which produced coated cytoplasmic microvesicles. Particle-containing microvesicles subsequently fused with each other and presumably also with pre-existent cytoplasmic vacuoles and lysosomal dense bodies to form storage vacuoles (phagosomes phagolysosomes and residual bodies).
Present evidence suggests that epiplexus cells are of hematogenous origin. Under certain conditions these cells may detach from the surface of the choroid plexus to become free-floating cells in the various cerebrospinal fluid compartments of the brain.
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This investigation was supported by USPHS research grants 1-K04 HD20871, 5 R01 HD 02616 and NB-04456.
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Carpenter, S.J., McCarthy, L.E. & Borison, H.L. Electron microscopic study on the epiplexus (Kolmer) cells of the cat choroid plexus. Z. Zellforsch. 110, 471–486 (1970). https://doi.org/10.1007/BF00330099
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DOI: https://doi.org/10.1007/BF00330099