Summary
‘Amyelinated’ axons in the spinal roots of dystrophic mouse nerves lack typical nodal and paranodal membrane specializations. However, at the periphery of the amyelinated bundles some of the naked axons form aberrant junctions with Schwann cells belonging to neighbouring myelinated axons. These junctions are characterized by a narrow intercellular cleft containing regularly-spaced densities that closely resemble the ‘transverse bands’ found at paranodal axoglial junctions with respect to both configuration and spacing. In addition, the Schwann cells sometimes extend fingerlike projections towards amyelinated axons in regions where the axolemma has a dense cytoplasmic undercoating. Such regions resemble nodes of Ranvier, where Schwann cell processes interlace over the axolemma. Freeze-fracture replicas show no typical nodal or paranodal membrane specializations in the amyelinated fibres where they are apposed to each other. However, isolated paracrystalline patches of membrane occur corresponding to the aberrant junctions between amyelinated axons and Schwann cells at the periphery of the bundles. The observations show that structural differentiation of the axolemma occurs only where axons are in intimate contact with myelinating cells and does not develop independently in the amyelinated regions. Sodium channels, which are normally concentrated in the specialized nodal membrane, are, therefore, probably distributed uniformly along the amyelinated axon segments that show no sign of such regional differentiation. In addition, it is shown that Schwann cells are capable of forming specialized junctions with more than one axon at the same time.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Andres, K. H. (1965) Über die Feinstruktur besonderer Einrichtungen in markhaltigen Nervenfasern des Kleinhirn der Ratte.Zeitschrift für Zellforschung und mikroskopische Anatomie 65, 701–12.
Bargmann, W. andLindner, E. (1964) Über den Feinbau des Nebennierenmarkes des Igels (Erinaceus europaeus, L.).Zeitschrift für Zellforschung und mikroskopische Anatomie 64, 868–912.
Biscoe, T. J., Caddy, K., Pallot, D. J., Pherson, U. M. andStirling, C. A. (1974) The neurological lesion in the dystrophic mouse.Brain Research 76, 534–6.
Bostock, H. andSears, T. A. (1976) Continuous conduction in demyelinated mammalian nerve fibers.Nature 263, 786–7.
Bradley, W. G. andJenkison, M. (1973) Abnormalities of peripheral nerves in murine muscular dystrophy.Journal of the Neurological Sciences 18, 227–47.
Bradley, W. G., Jaros, E., andJenkison, M. (1977) Nodes of Ranvier in nerves of mice with muscular dystrophy.Journal of Neuropathology and Experimental Neurology 36, 797–806.
Bunge, R. P. andBunge, M. B. (1978) Evidence that contact with connective tissue matrix is required for normal interaction between Schwann cells and nerve fibers.Journal of Cell Biology 78, 943–50.
Conti, F., Hille, B., Neumcke, B., Nonner, W. andStämpfli, R. (1976) Conductance of the sodium channels in myelinated nerve fibers with moderate sodium inactivation.Journal of Physiology 262, 729–42.
Dermietzel, R. (1974) Junctions in the central nervous system of the cat. II. A contribution to the tertiary structure of the axoglial junction in the paranodal region of the node of Ranvier.Cell and Tissue Research 148, 577–86.
Feder, N., Reese, T. S. andBrightman, M. W. (1969) Microperoxidase, a new tracer of low molecular weight. A study of the interstitial compartments of the mouse brain.Journal of Cell Biology 43, 35a-36a.
Franzini-Armstrong, C. (1970) Studies of the triad. I. Structure of the junction in frog twitch fibers.Journal of Cell Biology 47, 488–99.
Hirano, A. andDembitzer, H. M. (1969) The transverse bands as a means of access to the periaxonal space of the central myelinated nerve fibers.Journal of Ultrastructure Research 28, 141–9.
Kristol, C., Akert, K., Sandri, C., Wyss, U. R., Bennett, M. V. L. andMoor, H. (1977) The Ranvier nodes in the neurogenic electric organ of the knife fish Sternarchus: A freeze-etching study on the distribution of membrane-associated particles.Brain Research 125, 197–212.
Kristol, C., Sandri, C. andAkert, K. (1978) Intramembranous particles at the nodes of Ranvier of the cat spinal cord: a morphometric study.Brain Research 142, 391–400.
Livingston, R. B., Pfenninger, K., Moore, H. andAkert, K. (1973) Specialized paranodal and internodal glial-axonal junctions in the Peripheral and central nervous sytem: a freeze-etching study.Brain Research 59, 1–24.
Madrid, R. E., Jaros, E., Cullen, M. S. andBradley, W. G. (1975) Genetically detected defect of Schwann cell basement membrane in dystrophic mouse.Nature 257, 319–21.
Nonner, W., Rojas, E. andStämpfli, R. (1975) Gating currents in the node of Ranvier: Voltage and time dependence.Philosophical Transactions of the Royal Society of London B270, 438–92.
Okada, E., Mizuhira, V. andNakamura, H. (1976) Dysmyelination in the sciatic nerves of dystrophic mice.Journal of the Neurological Sciences 28, 505–20.
Peters, A. (1968) The morphology of axons of the central nervous system. InThe Structure and Function of Nervous Tissue. Vol. 1 (edited byBourne, G. H.), pp. 141–86. New York: Academic Press.
Rasminisky, M. (1978) Cross talk between bare and myelinated axons in spinal roots of dystrophic mice.Society for Neuroscience Abstracts 4, 248.
Rasminisky, M., Kearney, R. E., Aguayo, A. J. andBray, G. M. (1978) Conduction of nervous impulses in spinal roots and peripheral nerves of dystrophic mice.Brain Research 143, 71–85.
Ritchie, J. M. andRogart, R. B. (1977) Density of sodium channels in mammalian myelinated nerve fibers and the nature of the axonal membrane under the myelin sheath.Proceedings of the National Academy of Sciences (U.S.A.) 74, 211–5.
Rosenbluth, J. (1969) Ultrastructure of dyads in muscle fibers ofAscaris lumbricoides.Journal of Cell Biology 42, 817–25.
Rosenbluth, J. (1976) Intramembranous particle distribution at the node of Ranvier and adjacent axolemma in myelinated axons of the frog brain.Journal of Neurocytology 5, 731–45.
Rosenbluth, J. (1977) Absence of nodal and paranodal axolemmal membrane specializations in freeze-fracture replicas of Jimpy mouse brain and spinal cord.Society for Neuroscience Abstracts 3, 335.
Rosenbluth, J. (1978) Septate junctions between Schwann cells and amyelinated axons in dystrophic mouse nerves.Journal of Cell Biology 79, 101a.
Rosenbluth, J. (1979a) Freeze-fracture studies of nerve fibers: Evidence that regional differentiation of the axolemma depends upon glial contact. InProceedings, IVth International Congress on Neuromuscular Diseases. Amsterdam: Excerpta Medica (in press).
Rosenbluth, J. (1979b) New structural details of axon-Schwann cell junctions.Anatomical Record 193, 667.
Schnapp, B. andMugnaini, E. (1975) The myelin sheath: Electron microscopic studies with thin sections and freeze fracture. InGolgi Centennial Symposium Proceedings (edited bySantini, M.), pp. 209–233 New York: Raven Press.
Stirling, C. A. (1975) Abnormalities in Schwann cell sheaths in spinal nerve roots of dystrophic mice.Journal of Anatomy 119, 169–80.
Tasaki, I. (1955) New measurements of the capacity and the resistance of the myelin sheath and the nodal membrane of the isolated frog nerve fibers.American Journal of Physiology 181, 639–50.
Waxman, S. G., Bradley, W. G. andHartwieg, E. A. (1978) Organization of the axolemma in amyelinated axons: A cytochemical study in dy/dy dystrophic mice.Proceedings of the Royal Society of London B201, 301–18.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Rosenbluth, J. Aberrant axon-Schwann cell junctions in dystrophic mouse nerves. J Neurocytol 8, 655–672 (1979). https://doi.org/10.1007/BF01208515
Received:
Revised:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01208515