Summary
The long-term neurotoxic effects of taxol, a compound known to promote microtubule protein polymerization, injected subepineurially into rat sciatic nerve were studied up to 10 weeks post-injection. At the site of injection, taxol caused local axonal reactions and degeneration which were causally related to the slow progressive accumulation of microtubules and other axoplasmic constituents. This culminated in the appearance of giant axonal spheroids and profiles similar to the retraction bulbs of Wallerian degeneration. From these axonal bulbs, many of which arose at nodes of Ranvier, groups of regenerating sprouts emanated. During the acute phase of taxol neurotoxicity, some swollen axons were divested of their myelin sheaths and remained demyelinated for many weeks. After 4 weeks, remyelination was apparent along some fibres. In addition to the accumulation of profiles usually associated with retraction bulbs, there was a vast increase in microtubules, some of which were aligned in concentric rings and formed channels for mitochondria. Microtubule anomalies were also visualized in distal portions of affected fibres and in regenerating sprouts. In contrast, Schwann cells displayed microtubule abnormalities only at the site of the lesion where excessive microtubule polymerization caused the displacement of ribosomes from rough endoplasmic reticulum. Distally, Schwann cells were essentially normal. Axonal depletion and regenerating sprouts were noted further downstream in the tibial nerve, and the gastrocnemius muscle showed changes similar to denervation atrophy. These results extend previous observations by demonstrating chronic, reparatory and reversible phenomena, the implications of which are discussedvis á vis axoplasmic transport and nerve regeneration.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aguayo, A. J. &Bray, G. M. (1984) Cell interactions studied in the peripheral nerves of experimental animals. InPeripheral Neuropathy, Vol. 1 (edited byDyck, P. J., Thomas, P. K., Lambert, E. H. &Bunge, R. P.) pp. 360–77. Philadelphia: W. B. Saunders.
Allen, N., Mendell, J. R., Billmaier, D. J., Fontaine, R. E. &O'Neill, J. (1975) Toxic polyneuropathy due to methyl n-butyl ketone.Archives of Neurology 32, 209–18.
Allen, R. D., Weiss, D. G., Hayden, J. H., Brown, D. T., Fujiwake, H. &Simpson, M. (1985) Gliding movement of and bidirectional transport along single native microtubules from squid axoplasm: evidence for an active role.Journal of Cell Biology 100, 1736–52.
Asbury, A. K., Nielsen, S. L. &Telfer, R. (1974) Glue sniffing neuropathy.Journal of Neuropathology and Experimental Neurology 33, 191 (abstract).
Ballin, R. H. M. &Thomas, P. K. (1969) Changes at the node of Ranvier during Wallerian degeneration: an electron microscope study.Acta neuropathologica (Berlin) 14, 237–49.
Bird, M. M. (1985) The effects of taxol on embryonic chick tectum maintained in culture: an electron microscope study.Journal of Ultrastructure Research 89, 123–35.
Cajal, S. R. Y. (1928)Degeneration and Regeneration of the Nervous System (translated by May, R. M.). Hafner, New York, Chapter 7, pp. 141–66 (1959).
Davenport, J., Farrell, D. F. &Sumi, S. M. (1976) Giant axonal neuropathy caused by industrial chemicals: neuroaxonal masses in man.Neurology 26, 349 (abstract).
Donat, J. R. &Wisniewski, K. M. (1973) The spatiotemporal pattern of Wallerian degeneration in mammalian peripheral nerves.Brain Research 53, 41–53.
Hargreaves, A. J. &Avila, J. (1985) Localization and characterization of tubular-like proteins within brain mitochondria: the presence of a membrane-specific isoform.Journal of Neurochemistry 45, 490–6.
Kumar, N. (1981) Taxol-induced polymerization of purified tubulin.Journal of Biological Chemistry 256, 10435–41.
Lubinska, L. (1959) Region of transition between preserved and regenerating parts of myelinated fibers.Journal of Comparative Neurology 113, 315–25.
Masurovsky, E. B., Peterson, E. R., Crain, S. M. &Horwitz, S. B. (1982) Taxol-induced microtubule formations in fibroblasts of fetal mouse dorsal-root-ganglion-spinal cord cultures.Biology of the Cell 46, 213–16.
Masurovsky, E. B., Peterson, E. R., Crain, S. M. &Horwitz, S. B. (1983) Morphological alterations in dorsal root ganglion neurons and supporting cells of organotypic mouse spinal cord — ganglion cultures exposed to taxol.Neuroscience 10, 491–509.
Ochs, S. &Worth, R. M. (1978) Axoplasmic transport in normal and pathological systems. InPhysiology and Pathobiology of Axons (edited byWaxman, S. G.) pp. 251–64. New York: Raven Press.
Prineas, J. W. (1969) The pathogenesis of dying-back polyneuropathies. II. An ultrastructural study of experimental acrylamide intoxication in the cat.Journal of Neuropathology and Experimental Neurology 28, 598–621.
Raine, C. S. (1977) Schwann cell responses during recurrent demyelination and their relevance to onion bulb formation.Neuropathology and Applied Neurobiology 3, 453–70.
Raine, C. S. (1984) The morphology of myelin and myelination. InMyelin, 2nd edn (edited byMorell, P.), pp. 1–50. New York: Plenum Press.
Raine, C. S. &Fields, B. N. (1974) Neurotropic virus-host relationship alterations due to a variation in viral genome as studied by electron microscopy.American Journal of Pathology 75, 119–31.
Raine, C. S., Ghetti, B. &Shelanski, M. L. (1971) On the association between microtubules and mitochondria within axons.Brain Research 34, 389–93.
Raine, C. S., Wisniewski, H. &Prineas, J. (1969) An ultrastructural study of experimental demyelination and remyelination. II. Chronic experimental allergic encephalomyelitis in the peripheral nervous system.Laboratory Investigation 21, 316–27.
Röyttä, M., Horwitz, S. B. &Raine, C. S. (1984) Taxol-induced neuropathy: short-term effects of local injection.Journal of Neurocytology 13, 685–701.
Röyttä, M. &Raine, C. S. (1985) Taxol-induced neuropathy: further ultrastructural studies of nerve fibre changesin situ.Journal of Neurocytology 14, 157–75.
Schiff, P. B., Fant, J. &Horwitz, S. B. (1979) Promotion of microtubule assemblyin vitro by taxol.Nature 277, 665–7.
Schiff, P. B. &Horwitz, S. B. (1981) Taxol assembles tubulin in the absence of exogenous guanosine 5′-triphosphate or microtubule-associated proteins.Biochemistry 20, 3242–52.
Spencer, P. S., Schaumburg, H. H., Raleigh, R. L. &Terharr, C. J. (1975) Nervous system degeneration produced by the industrial solvent methyl n-butyl ketone.Archives of Neurology 32, 219–22.
Spero, D. A. &Roisen, F. J. (1985) Neuro-2a neuroblastoma cells from neurites in the presence of taxol and cytochalasin D.Developmental Brain Research 23, 155–9.
Webster, H. deF. &Favilla, J. T. (1984) Development of peripheral nerve fibres. InPeripheral Neuropathy, Vol. 1 (edited byDyck, P. J., Thomas, P. K., Lambert, E. H. &Bunge, R. P.), pp. 329–59. Philadelphia: W. B. Saunders.
Webster, H. deF., Spiro, D., Waksman, B. H. &Adams, R. D. (1961) Phase and electron microscopic studies of experimental demyelination. II. Schwann cell changes in guinea pig sciatic nerves during experimental diphtheritic neuritis.Journal of Neuropathology and Experimental Neurology 20, 5–34.
Yamada, K. M., Spooner, B. S. &Wessels, N. K. (1970) Axon growth: roles of microfilaments and microtubules.Proceedings of the National Academy of Sciences USA 66, 1206–8.
Yamada, K. M. &Wessels, N. K. (1971) Axon elongation. Effect of nerve growth factor on microtubule protein.Experimental Cell Research 66, 346–52.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Röyttä, M., Raine, C.S. Taxol-induced neuropathy: chronic effects of local injection. J Neurocytol 15, 483–496 (1986). https://doi.org/10.1007/BF01611731
Received:
Revised:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01611731