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Czasopismo

2000 | 59 | 3 |

Tytuł artykułu

Types of neurons of the septal nuclei in the guinea pig: Golgi and Kluver-Barrera studies

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The Golgi technique stain was used to reveal the cellular structure of the neostriatum (nucleus caudatus and putamen) in the guinea pig. The computerised reconstructions were made from Golgi impregnated neurones. On the basis of various criteria, 4 types of neurones were distinguished in the guinea pig neostriatum: 1. The rounded neurones (most numerous) with 5–8 thin dendritic trunks; 2. The triangular nerve cells with 3 thick dendritic trunks; 3. Two types of multipolar neurones differing in dendritic arborisation pattern with 4–6 and 7–9 primary dendrites, respectively. 4. The pear-shaped cells, which divide into two distinctly different subpopulations.

Wydawca

-

Czasopismo

Rocznik

Tom

59

Numer

3

Opis fizyczny

p.157-161,fig.

Twórcy

autor
  • Warmia and Masuria University, Zolnierska 14, 10-561 Olsztyn, Poland
autor
autor

Bibliografia

  • 1. Beckstead RM, Kersey KS (1985) Immunohistochemical demonstration of differential substance P., metenkephalin and glutamicacid-decarboxylase-containing cell body and distribution in the corpus striatum of the cat. J Comp Neurol, 232: 481–498.
  • 2. Beckstead RM (1987) Striatal substance P. cell cluster coincide with the high density terminal zones of the discontinuous nigrostriatal dopaminergic projection system in the cat; a study by combined immunohistochemistry and autoradiography axon-tracing. Neuroscience, 20: 557–576.
  • 3. Bolam JP, Somogyi P, Totterdell S, Smith AD (1981) A second type of striatonigral neurone: a comparison between retrogradely labelled and Golgi stained neurones at the light and electron levels. Neuroscience, 6: 2141–2157.
  • 4. Bolam JP, Somogyi P, Takagi H, Fodor I, Smith AD (1983) Localisation of substance P-like immunoreactivity in neurones and nerve terminals in the neostriatum of the rat: a correlated light and electron microscopic study. J Neurocytol, 12: 325–344.
  • 5. Bolam JP, Wainer BBH, Smith AD (1984) Characterisation of cholinergic neurones in the rat neostriatum. A combination choline acetyltransferase immunocytochemistry, Golgi-impregnation and electron microscopy. Neuroscience, 12: 711–718.
  • 6. Braak H, Braak E (1982) Neuronal types in the striatum of man. Cell Tissue Res, 227: 319–342.
  • 7. Desban M, Gauchy C, Kemel ML, Besson MJ, Glowinski J (1989) Three-dimensional organisation of the striosomal compartment and patchy distribution of striatonigral projections in the matrix of the cat caudate nucleus. Neuroscience, 29: 551–566.
  • 8. Difiglia M, Pasik P, Pasik T (1976) A Golgi study of neuronal types in the neostriatum of monkey. Brain Res, 114: 245–256.
  • 9. Difiglia M, Pasik T, Pasik P (1980) Ultrastructure of Golgi-impregnated and gold-toned spiny and aspiny neurones in the monkey neostriatum. J Neurocytol, 9: 471–492.
  • 10. Dimova R, Vuillet J, Seite R (1980) Study of the rat neostriatum using a combined Golgi-electron microscope technique and serial sections. Neuroscience, 5: 1581–1596.
  • 11. Eder M, Vizcelety T, Tombol T (1980) Nerve cells of the rabbit, cat, monkey, and human caudate nucleus: a Golgi study. Acta Morphol, 28: 337–363.
  • 12. Ferrante RJ, Kowall NW, Richardson Jr. EP, Bird ED, Martin JB (1986) Topography of enkephalin, substance P. and acetylocholinesterase staining Huntington’s disease striatum. Neurosci Lett, 71: 283–288.
  • 13. Groves PM (1983) A theory of the functional organisation of the neostriatum and the neostriatal control of voluntary movement. Brain Res, 5: 109–132.
  • 14. Groves PM, Martone M, Young SJ, Armstrong DM (1988) Three-dimensional pattern of enkephalin-like immunoreactivity in the caudate nucleus of the cat. J Neurosci, 8: 892–900.
  • 15. Kaiya H, Kreutzberg GW, Namba M (1980) Ultrastructure of acetylocholinesterase synthesising neurones in the neostriatum. Brain Res, 187: 369–382.
  • 16. Kemp JM, Powel TPS (1971) The structure of the caudate nucleus of the cat. Light and electron microscopy. Phil Trans, London, SB, 262: 383–401.
  • 17. Misgeld U, Frotscher M, Wagner A (1984) Identification of projecting neurones in rat neostriatal slices. Brain Res, 299: 367–370.
  • 18. Morest DK (1971) Dendrodendritic synapses of cells that have axons: the fine structure of the Golgi type II cell in the medial geniculate body of the cat. Z Anat Eutwickl Gesch, 133: 216–246.
  • 19. Równiak M, Szteyn S, Robak A, Klawon M, Dusza M (1994) The types of neurones in the neostriatum of bison bonasus. Nissl and Golgi study. Folia Morphol, 53: 165–176.
  • 20. Rutheford JG, Gwyn DG (1980) A light and electron microscopic study of the inferior olivary nucleus of the squirrel monkey, Saimiri sciureus. J Comp Neurol, 189: 127–155.
  • 21. Somogyi P, Bolam JP, Smith AD (1981) Monosynaptic cortical input and local axon collaterals of identified striatonigral neurones. A light and electron microscopic study using the Golgi-peroxidase transport-degeneration procedure. J Comp Neurol, 195: 567–584.
  • 22. Sugimoto T, Mizuno N (1986) Immunohistochemical demonstration of neurotensin in striatal neurones of the cat, with particular reference to coexistence with enkephalin. Brain Res, 398: 195–198.
  • 23. Szabo J (1979) Strionigral and nigrostriatal connections. Applied Neurophysiology, 42: 9–12.

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Bibliografia

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