Summary
The avascular ventral nerve cord of the moth, Manduca sexta, possesses an extensive dorsal mass of connective tissue in which lie fibroblasts that produce a collagen-like protein. The lateral and ventral surfaces of the nerve cord are ensheathed by an acellular neural lamella. Beneath this lies a layer of microtubule-laden perineurial cells which are separated from one another at their peripheral borders by lacunae containing electron-opaque material to which the cells are attached by hemi-desmosomes. Beyond these spaces, narrow intercellular clefts occur between the interdigitating perineurial plasma membranes; these are then connected by both gap and tight junctions. The axons beneath are surrounded by glia which also contain many microtubules and which are linked to one another by desmosomes and tight junctions.
When intact nerve cords are incubated in horseradish peroxidase, reaction product is subsequently found within the neural lamella as well as in the lacunae and clefts between perineurial cells, but not beyond this level. Desheathed preparations, however, contain peroxidase within the cytoplasm of the exposed glial cells. Lanthanum penetrates the neural lamella and the lacunae, clefts and gap junctions between adjacent perineurial cells, but no further. It therefore appears that the tight junctions in the perineurium may be the site of restriction to the entry of ions and molecules, the existence of which has been suggested previously by electrophysiological investigations.
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I am grateful to Miss Yvonne R. Carter for her invaluable technical assistance and to Dr. J.E. Treherne and Dr. D.B. Sattelle for helpful discussions.
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Lane, N.J. Fine structure of a lepidopteran nervous system and its accessibility to peroxidase and lanthanum. Z.Zellforsch 131, 205–222 (1972). https://doi.org/10.1007/BF00306928
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DOI: https://doi.org/10.1007/BF00306928