THE FINE STRUCTURAL ORGANIZATION OF NERVE FIBERS, SHEATHS, AND GLIAL CELLS IN THE PRAWN, PALAEMONETES VULGARIS

doi:10.1083/jcb.30.2.381

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ARTICLE

THE FINE STRUCTURAL ORGANIZATION OF NERVE FIBERS, SHEATHS, AND GLIAL CELLS IN THE PRAWN, PALAEMONETES VULGARIS

John E. Heuser ¹ and Carlos F. Doggenweiler ¹

¹ From the Harvard Medical School, Departments of Neurology and Psychiatry, Boston, and the Biophysics Research Laboratory, McLean Hospital, Belmont, Massachusetts.

Dr. Doggenweiler's present address is Facultad de Medicina, Universidad Catolica de Chile, Santiago, Chile

In view of reports that the nerve fibers of the sea prawn conductimpulses more rapidly than other invertebrate nerves and looklike myelinated vertebrate nerves in the light microscope, prawnnerve fibers were studied with the electron microscope. Theirsheaths are found to have a consistent and unique structurethat is unlike vertebrate myelin in four respects: (1) The sheathis composed of 10 to 50 thin (200- to 1000-A) layers or laminae;each lamina is a cellular process that contains cytoplasm andwraps concentrically around the axon. The laminae do not connectto form a spiral; in fact, no cytoplasmic continuity has beendemonstrated among them. (2) Nuclei of sheath cells occur onlyin the innermost lamina of the sheath; thus, they lie betweenthe sheath and the axon rather than outside the sheath as invertebrate myelinated fibers. (3) In regions in which the structuralintegrity of the sheath is most prominent, radially orientedstacks of desmosomes are formed between adjacent laminae. (4)An $sim$ 200-A extracellular gap occurs around the axon and betweenthe innermost sheath laminae, but it is separated from surroundingextracellular spaces by gap closure between the outer sheathlaminae, as the membranes of adjacent laminae adhere to formexternal compound membranes (ECM's). Sheaths are interruptedperiodically to form nodes, analogous to vertebrate nodes ofRanvier, where a new type of glial cell called the "nodal cell"loosely enmeshes the axon and intermittently forms tight junctions(ECM's) with it. This nodal cell, in turn, forms tight junctionswith other glial cells which ramify widely within the cord,suggesting the possibility of functional axon-glia interaction.

Submitted on February 21, 1966

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