The Action of Capsaicin on Primary Afferent Central Terminals in the Superficial Dorsal Horn of Newborn Mice
Capsaicin was injected subcutaneously (50mg/kg) into 10 mice on days 2 or 3 after birth, and 12h, 3 and 5 days later the distribution and structure of degenerated primary afferent central axons or terminals (C-terminals) in the lumbar spinal dorsal horn were examined by electron microscopy. Degenera...
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| Published in | Archives of Histology and Cytology Vol. 53; no. 4; pp. 455 - 466 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
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Japan
International Society of Histology and Cytology
1990
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| Abstract | Capsaicin was injected subcutaneously (50mg/kg) into 10 mice on days 2 or 3 after birth, and 12h, 3 and 5 days later the distribution and structure of degenerated primary afferent central axons or terminals (C-terminals) in the lumbar spinal dorsal horn were examined by electron microscopy. Degenerated terminal axons with dense or lamellar bodies or higher electron density were conspicuous 12h after treatment with capsaicin. Severely degenerated unmyelinated axons, including dense or lamellar bodies engulfed by microglial cells, were numerous in the most superficial (marginal) layer, but rarely seen in the substantia gelatinosa. Two types of primary afferent central terminals in the substantia gelatinosa showed various extents of degeneration: small dark C-terminals (CI-terminals) with densely packed agranular synaptic vesicles, and large light ones (CII-terminals) with less dense agranular synaptic vesicles and a few granular synaptic vesicles. Thus, many central axon terminals of dorsal root ganglion (DRG) neurons that are sensitive to capsaicin enter the marginal layer and substantia gelatinosa. Degenerated primary afferent central axons or terminals markedly decreased in the superficial dorsal horn 3 and 5 days after capsaicin treatment, still, there were many degenerating DRG neurons at this time as shown by our previous study. Previously we also reported that fewer slightly degenerating unmyelinated dorsal root axons and small DRG neurons appear at 12h and larger DRG neurons degenerate later than smaller ones after treatment with capsaicin. As a result, the discovery of many severely degenerated terminal axons in the superficial dorsal horn soon after treatment supports the idea that capsaicin first acts on the central terminals and that this is followed by damage to larger DRG neurons. |
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| AbstractList | Capsaicin was injected subcutaneously (50 mg/kg) into 10 mice on days 2 or 3 after birth, and 12 h, 3 and 5 days later the distribution and structure of degenerated primary afferent central axons or terminals (C-terminals) in the lumbar spinal dorsal horn were examined by electron microscopy. Degenerated terminal axons with dense or lamellar bodies or higher electron density were conspicuous 12 h after treatment with capsaicin. Severely degenerated unmyelinated axons, including dense or lamellar bodies engulfed by microglial cells, were numerous in the most superficial (marginal) layer, but rarely seen in the substantia gelatinosa. Two types of primary afferent central terminals in the substantia gelatinosa showed various extents of degeneration: small dark C-terminals (CI-terminals) with densely packed agranular synaptic vesicles, and large light ones (CII-terminals) with less dense agranular synaptic vesicles and a few granular synaptic vesicles. Thus, many central axon terminals of dorsal root ganglion (DRG) neurons that are sensitive to capsaicin enter the marginal layer and substantia gelatinosa. Degenerated primary afferent central axons or terminals markedly decreased in the superficial dorsal horn 3 and 5 days after capsaicin treatment, still, there were many degenerating DRG neurons at this time as shown by our previous study. Previously we also reported that fewer slightly degenerating unmyelinated dorsal root axons and small DRG neurons appear at 12 h and larger DRG neurons degenerate later than smaller ones after treatment with capsaicin. As a result, the discovery of many severely degenerated terminal axons in the superficial dorsal horn soon after treatment supports the idea that capsaicin first acts on the central terminals and that this is followed by damage to larger DRG neurons. Capsaicin was injected subcutaneously (50mg/kg) into 10 mice on days 2 or 3 after birth, and 12h, 3 and 5 days later the distribution and structure of degenerated primary afferent central axons or terminals (C-terminals) in the lumbar spinal dorsal horn were examined by electron microscopy. Degenerated terminal axons with dense or lamellar bodies or higher electron density were conspicuous 12h after treatment with capsaicin. Severely degenerated unmyelinated axons, including dense or lamellar bodies engulfed by microglial cells, were numerous in the most superficial (marginal) layer, but rarely seen in the substantia gelatinosa. Two types of primary afferent central terminals in the substantia gelatinosa showed various extents of degeneration: small dark C-terminals (CI-terminals) with densely packed agranular synaptic vesicles, and large light ones (CII-terminals) with less dense agranular synaptic vesicles and a few granular synaptic vesicles. Thus, many central axon terminals of dorsal root ganglion (DRG) neurons that are sensitive to capsaicin enter the marginal layer and substantia gelatinosa. Degenerated primary afferent central axons or terminals markedly decreased in the superficial dorsal horn 3 and 5 days after capsaicin treatment, still, there were many degenerating DRG neurons at this time as shown by our previous study. Previously we also reported that fewer slightly degenerating unmyelinated dorsal root axons and small DRG neurons appear at 12h and larger DRG neurons degenerate later than smaller ones after treatment with capsaicin. As a result, the discovery of many severely degenerated terminal axons in the superficial dorsal horn soon after treatment supports the idea that capsaicin first acts on the central terminals and that this is followed by damage to larger DRG neurons. |
| Author | ISHIZUKA, Hiroshi VILLALOBOS, E. López HIURA, Akio |
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| References | HIURA, A. and H. ISHIZUKA: Changes in features of degenerating primary sensory neurons with time after capsaicin treatment. Acta Neuropathol. 78: 35-46 (1989). JANCSÓ, G.: Selective degeneration of chemosensitive primary sensory neurons induced by capsaicin: glial changes. Cell Tiss. Res. 195: 145-152 (1978). PIGNATELLI, D., A. RIBEIRO-DA-SILVA and A. COIMBRA: Postnatal maturation of primary afferent terminations in the substantia gelatinosa of the rat spinal cord. An electron microscopic study. Brain Res. 491: 33-44 (1989). RIBEIRO-DA-SILVA, A. and A. COIMBRA: Capsaicin causes selective damage to type I synaptic glomeruli in rat substantia gelatinosa. Brain Res. 290: 380-383 (1984). PALERMO, N. N., H. K. BROWN and D. L. SMITH: Selective neurotoxic action of capsaicin on glomerular Ctype terminals in rat substantia gelatinosa. Brain Res. 208: 506-510 (1981). GOBEL, S.: Synaptic organization of the substantia gelatinosa glomeruli in the spinal trigeminal nucleus of the adult cat. J. Neurocytol. 3: 219-243 (1974). KNYIHAR-CSILLIK, E., B. CSILLIK and P. RAKIC: Ultrastructure of normal and degenerating glomerular terminals of dorsal root axons in the substantia gelatinosa of the rhesus monkey. J. Comp. Neurol. 210: 357-375 (1982). RIBEIRO-DA-SILVA, A. and A. COIMBRA: Effects of dorsal rhizotomy on the two types of synaptic glomeruli in laminae II-III of the rat spinal cord. Neurosci. Lett. Suppl. 7: s407 (1981). JANCSÓ, G., E. KIRALY and A. JANCSÓ-LÁBOR: Pharmacologically induced selective degeneration of chemosensitive primary sensory neurones. Nature 270: 741-743 (1977). KNYIHAR, E. and B. CSILLIK: Effect of peripheral axotomy on the fine structure and histochemistry of the Rolando substance: Degenerative atrophy of central processes of pseudounipolar cells. Exp. Brain Res. 26: 73-87 (1976). PIGNATELLI, D., A. COIMBRA and W. ZIEGLANSBERGER: Identification of C fiber primary afferent endings in the substantia gelatinosa of the newborn rat: an electron microscopic study. In: (ed. by) R. F. SCHMIDT et al.: Fine afferent nerve fibers and pain. VCH Publishers, Weinheim, 1987 (p. 69-75). RALSTON, H. J., III: The fine structure of laminae I, II and III of the macaque spinal cord. J. Comp. Neurol. 184: 619-642 (1979). KNYIHAR-CSILLIK, E, and B. CSILLIK: FRAP: Histochemistry of the primary nociceptive neuron. Prog. Histochem. Cytochem. 14: 1-137 (1981). FITZGERALD, M.: Capsaicin and sensory neurons—A review. Pain 15: 109-130 (1983). HIURA, A. and Y. SAKAMOTO: Effect of capsaicin on neurites of cultured dorsal root ganglia and isolated neurons of chick embryos. Neurosci. Lett. 73: 237-241 (1987a). LAWSON, S. N.: The morphological consequences of neonatal treatment with capsaicin on primary afferent neurons in adult rats. Acta Physiol. Hung. 69: 315-321 (1987). RIBEIRO-DA-SILVA, A. and A. COIMBRA: Two types of synaptic glomeruli and their distribution in laminae I-III of the rat spinal cord. J. Comp. Neurol. 209: 176-186 (1982). COIMBRA, A., B. P. SODRE-BORGES and M. M. MAGALHAES: The substantia gelatinosa Rolandi of the rat. Fine structure, cytochemistry (acid phosphatase) and changes after dorsal root section. J. Neurocytol. 3: 199-217 (1974). RALSTON, H. J., III and D. D. RALSTON: The distribution of dorsal root axons in laminae I, II and III of the macaque spinal cord: A quantitative electron microscope study. J. Comp. Neurol. 184: 643-684 (1979). HIURA, A. and Y. SAKAMOTO: Quantitative estimation of the effects of capsaicin on the mouse primary sensory neurons. Neursci. Lett. 76: 101-106 (1987b). GOODE, G. E.: The ultrastructural identification of primary and suprasegmental afferents in the marginal and gelatinous layers of lumbar spinal cord following central and peripheral lesions. Neurosci. Abst. 2: 975 (1976). KNYIHAR-CSILLIK, E., P. RAKIC and B. CSILLIK: Transganglionic degenerative atrophy in the substantia gelatinosa of the spinal cord after peripheral nerve transection in rhesus monkeys. Cell Tiss. Res. 247: 599-604 (1987). |
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| SubjectTerms | Animals Animals, Newborn Axons - drug effects Axons - ultrastructure Capsaicin - pharmacology Mice Nerve Degeneration - drug effects Nerve Endings - drug effects Nerve Endings - ultrastructure Neurons, Afferent - drug effects Neurons, Afferent - ultrastructure Substantia Gelatinosa - drug effects Substantia Gelatinosa - ultrastructure Time Factors |
| Title | The Action of Capsaicin on Primary Afferent Central Terminals in the Superficial Dorsal Horn of Newborn Mice |
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