Summary
The autonomic nerve plexus of the ciliary muscle was examined with the electron microscope in normal rhesus monkeys of different ages. In the anterior region of the muscle, at the boundary with the poorly innervated scierai spur and trabecular meshwork, 3.8–7.1% of the axons exhibit either degenerative or regenerative features. The cytoplasm of degenerating axons contains lamellated, dense and multivesicular bodies, vesicles, whorls of filaments, and membranous debris. The plasma membrane is often discontinuous and, on occasion, axonal debris and degenerative organelles are freely dispersed in the connective tissue spaces of the muscle. Degenerating axons contain a granular reaction product when stained for acid phosphatase activity. Regenerating axons are characterized by tightly packed mitochondria, glycogen particles, and aggregates of synaptic vesicles; they synapse with muscle cells and are negative to the acid phosphatase reaction.
A quantitative analysis showed that in the anterior region of the ciliary muscle degenerating and regenerating axons increase in number with age, although the total number of axonal profiles remains constant. In the age groups examined, degenerating axons occurred with the same frequency as regenerating axons, thus, the age-dependent increase in axonal degeneration is accompanied by a parallel increase in axonal regeneration. We conclude that autonomie nerve endings in the anterior part of the ciliary muscle undergo a continuous process of renewal that is more prominent in old age.
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References
Aguayo, A. J., Peyronnard, J. M. andBray, G. M. (1973) A quantitative ultrastructural study of regeneration from isolated proximal stumps of transected unmyelinated nerves.Journal of Neuropathology and Experimental Neurology 32, 256–70.
Barka, T. andAnderson, P. J. (1962) Histochemical methods for acid phosphatase using hexazonium pararosanilin as coupler.Journal of Histochemistry and Cytochemistry 10, 741–53.
Baumgarten, H. G., Björklund, A., Holstein, A. F. andNobin, A. (1972) Organization and ultrastructural identification of the catecholamine nerve terminals in the neural lobe and pars intermedia of the rat pituitary.Zeitschrift für Zellforschung und mikroskopische Anatomie 126, 483–517.
Bergmanson, J. P. G. (1977) The ophthalmic innervation of the uvea in monkeys.Experimental Eye Research 24, 225–40.
Blümcke, S. andDengler, H. J. (1970) Noradrenalin content and ultrastructure of adrenergic nerves of rabbit iris after sympathectomy and hypoxia.Virchows Archiv Abteilung B 6, 281–93.
Bray, G. M., Peyronnard, J-M. andAguayo, A. J. (1972) Reactions of unmyelinated nerve fibers to injury. An ultrastructural study.Brain Research 42, 297–309.
Bunge, R. P., Bunge, M. B. andPeterson, E. R. (1965) An electron microscope study of cultured rat spinal cord.Journal of Cell Biology 24, 163–91.
Cajal, S. R. y (1928)Degeneration and Regeneration of the Nervous System. London: Oxford University Press.
Cauna, N. andRoss, L. L. (1960) The fine structure of Meissner's touch corpuscles of human fingers.Journal of Biophysical and Biochemical Cytology 8, 467–82.
Ceccarelli, B., Clementi, F. andMantegazza, P. (1971) Synaptic transmission in the superior cervical ganglion of the cat after reinnervation by vagus fibres.Journal of Physiology 216, 87–98.
Chiba, T. (1972) Fine structure of the baroreceptor nerve terminals in the carotid sinus of the dog.Journal of Electron Microscopy 21, 139–48.
Dellmann, H.-D. andRodríguez, E. M. (1970) Herring bodies: an electron microscopic study of local degeneration and regeneration of neurosecretory axons.Zeitschrift für Zellforschung und mikroskopische Anatomie 111, 293–315.
Dyck, P. J. andHopkins, A. P. (1972) Electron microscopic observations on degeneration and regeneration of unmyelinated fibres.Brain 95, 223–34.
Guth, L. (1956) Regeneration in the mammalian peripheral nervous system.Physiological Reviews 36, 441–78.
Hámori, J., Láng, E. andSimon, L. (1968) Experimental degeneration of the preganglionic fibers in the superior cervical ganglion of the cat.Zeitschrift für Zellforschung und mikroskopische Anatomie 90, 37–52.
Hashimoto, P. H. andPalay, S. L. (1965) Peculiar axons with enlarged endings in the nucleus grucilis.Anatomical Record 151, 454–5 (abstract).
Holtzman, E. andNovikoff, A. B. (1965) Lysosomes in the rat sciatic nerve following crush.Journal of Cell Biology 27, 651–69.
Kapeller, K. andMayor, D. (1969a) An electron microscopic study of the early changes proximal to a constriction in sympathetic nerves.Proceedings of the Royal Society of London Series B 172, 39–51.
Kapeller, K. andMayor, D. (1969b) An electron microscopic study of the early changes distal to a constriction in sympathetic nerves.Proceedings of the Royal Society of London Series B 172, 53–63.
Karnovsky, M. J. (1971) Use of ferrocyanide-reduced osmium tetroxide in electron microscopy.Abstracts of Papers, Eleventh Annual Meeting, The American Society for Cell Biology, p. 146.
Knoche, H., Walther-Wenke, G. andAddicks, K. (1977) Die Feinstruktur der barorezeptorischen Nervenendigungen in der Wand des Sinus caroticus der Katze.Acta Anatomica 97, 403–18.
Konishi, A. (1966) Occurrence of glycogen in developing cerebellar mossy fiber endings: an electron microscopic study.Arcbivum Histologicum Japonicum 27, 451–64.
Kornguth, S. E., Anderson, J. W. andScott, G. (1966) Temporal relationship between myelinogenesis and the appearance of a basic protein in the spinal cord of the white rat.Journal of Comparative Neurology 127, 1–18.
Laties, A. M. andJacobowitz, D. (1966) A comparative study of the autonomic innervation of the eye in monkey, cat, and rabbit.Anatomical Record 156, 383–96.
Leonhardt, H. (1976) ‘Axonal spheroids’ in the spinal cord of normal rabbits.Cell and Tissue Research 174, 99–108.
Matsushima, S. andReiter, R. J. (1977) Fine structural features of adrenergic nerve fibers and endings in the pineal gland of the rat, ground squirrel and chinchilla.American Journal of Anatomy 148, 463–77.
Matthews, M. R. (1973) An ultrastructural study of axonal changes following constriction of postganglionic branches of the superior cervical ganglion in the rat.Philosophical Transactions of the Royal Society of London Series B 264, 479–505.
Mugnaini, E., Walberg, F. andHauglie-Hanssen, E. (1967) Observations on the fine structure of the lateral vestibular nucleus (Deiters' nucleus) in the cat.Experimental Brain Research 4, 146–86.
Ochoa, J. andMair, W. G. P. (1969) The normal sural nerve in man. II. Changes in the axons and Schwann cells due to ageing.Acta Neuropathologica 13, 217–39.
Oppenheimer, D. R., Palmer, E. andWeddell, G. (1958) Nerve endings in the conjunctiva.Journal of Anatomy 92, 321–52.
Rees, P. M. (1967) Observations on the fine structure and distribution of presumptive baroreceptor nerves at the carotid sinus.Journal of Comparative Neurology 131, 517–48.
Reier, P. J. andHughes, A. (1972) Evidence for spontaneous axon degeneration during peripheral nerve maturation.American Journal of Anatomy 135, 147–52.
Riisager, M. andWeddell, G. (1962) Nerve terminations in the human carotid sinus. Variations in structure in the age group 52–80 years.Journal of Anatomy 96, 25–37.
Roth, C. D. andRichardson, K. C. (1969) Electron microscopical studies on axonal degeneration in the rat iris following ganglionectomy.American Journal of Anatomy 124, 341–60.
Ruskell, G. L. (1973) Sympathetic innervation of the ciliary muscle in monkeys.Experimental Eye Research 16, 183–90.
Sotelo, C. andAngaut, P. (1973) The fine structure of the cerebellar central nuclei in the cat. I. Neurons and neuroglial cells.Experimental Brain Research 16, 410–30.
Sotelo, C. andPalay, S. L. (1968) The fine structure of the lateral vestibular nucleus in the rat. I. Neurons and neuroglial cells.Journal of Cell Biology 36, 151–79.
Sotelo, C. andPalay, S. L. (1971) Altered axons and axon terminals in the lateral vestibular nucleus of the rat. Possible example of axonal remodeling.Laboratory Investigation 25, 653–71.
Speidel, C. C. (1941) Adjustments of nerve endings.The Harvey Lectures, Series36, 126–58.
Thomas, P. K. andKing, R. H. M. (1974) The degeneration of unmyelinated axons following nerve section: an ultrastructural study.Journal of Neurocytology 3, 497–512.
Townes-Anderson, E. andRaviola, G. (1976) Giant nerve fibers in the ciliary muscle and iris sphincter ofMacaca mulatta.Cell and Tissue Research 169, 33–40.
Townes-Anderson, E. andRaviola, G. (1977) Degeneration and regeneration of nerve terminals in the ciliary muscle of primates.Anatomical Record 187, 732 (abstract).
Tranum-Jensen, J. (1975) The ultrastructure of the sensory end-organs (baroreceptors) in the atrial endocardium of young mini-pigs.Journal of Anatomy 119, 255–75.
Vaughn, J. E. andGrieshaber, J. A. (1972) An electron microscopic investigation of glycogen and mitochondria in developing and adult rat spinal motor neuropil.Journal of Neurocytology 1, 397–412.
Vrabec, F. (1965) On the development and senile changes of the innervation of the trabecular meshwork in the human. InThe Structure of the Eye. II. Symposium held August 8th to 13th 1965 during the 8th International Congress of Anatomists (edited byRohen, J. W.), pp. 215–22. Stuttgart: Schattauer.
Weddell, A. G. M., Jamison, D. G. andPalmer, E. (1964) Recent investigations into the sensory and neurohistological changes in leprosy. InLeprosy in Theory and Practice (edited byCochrane, R. G. andDavey, T. F.), pp. 205–20. Bristol: John Wright and Sons.
Weddell, G. andMiller, S. (1962) Cutaneous sensibility.Annual Review of Physiology 24, 199–222.
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Townes-Anderson, E., Raviola, G. Degeneration and regeneration of autonomic nerve endings in the anterior part of rhesus monkey ciliary muscle. J Neurocytol 7, 583–600 (1978). https://doi.org/10.1007/BF01260891
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DOI: https://doi.org/10.1007/BF01260891