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1

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Morphological study of cerebellar transplant cocultivated with cerebral cortical graft in the anterior eye chamber (1988)

Hámori, J. ; Takács, J.

Springer

Anatomy and embryology 177 (1988), S. 557-569

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ISSN: 1432-0568

Keywords: Cerebellar graft ; Molecular layer ; GABA-immunoreaction

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Morphological organization of Purkinje cells and of molecular layer of the cerebellar cortex cocultivated intraocularly with cerebral cortex for two months was studied. It was found, that while numerous spines on the main dendritic branches of Purkinje cells in single cerebellar grafts were “vacant” and non-synaptic, dendritic spines of thick Purkinje dendrites in double grafts were covered by large presynaptic bags. The resulting complex synaptic arrangement was strikingly similar although not identical to climbing terminals in normal (“in situ”) cerebellar cortex. Three distinct types of large presynaptic climbing-fibre like terminals were distinguished: (a) bouton with dense matrix and small round synaptic vesicles, (b) with large round vesicles and (c) containing ovoid synaptic vesicles. The spines of the thin, presumably tertiary dendritic branches were contacted mostly by one parallel axon varicosity, or — as a contrast to normal conditions-by axon terminal, containing ovoid synaptic vesicles. Irrespective of the shape of synaptic vesicles in the presynaptic terminal, all spine-synapses were of asymmetric type; in contrast, synapses on the dendritic shafts were always symmetric. GABA-immunogold reaction has revealed the presence of this inhibitory transmitter in most axon terminals containing ovoid-pleomorphic vesicles within the molecular layer, including those resembling climbing fiber-terminals. This shows a plasticity of the Purkinje cell dendrites to receive non-specific, “foreign” axons in the absence of specific afferents. Also, the type of synaptic junctions, i.e. whether symmetric or asymmetric, is determined exclusively by the postsynaptic neuron and is independent of the transmitter content of the presynaptic terminal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00305142

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Morphological study of cerebellar transplant cocultivated with cerebral cortical graft in the anterior eye chamber (1988)

Takács, J. ; Hámori, J.

Springer

Anatomy and embryology 177 (1988), S. 543-556

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ISSN: 1432-0568

Keywords: Cerebro-cerebellar transplant ; Glomerulus ultrastructure ; GABA-ergic mossy terminals

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Fetal cerebral cortex and cerebellar anlage from rat fetuses of 15–16 gestational day were grafted simultaneously to the anterior eye chamber of adult female albino rat recipients. Two months after transplantation the cerebellar portion of the double graft consisted of foliated cerebellar cortex surrounding a welldefined cerebellar nucleus. In the absence of pia mater or glial scar the cerebral and cerebellar grafts were observed to establish direct contact with each other. Although much thinner than in the normal cerebellum, the overall morphological organization of the granular layer in the transplant was similar to that described for “in situ” normal cerebellum, with some remarkable differences, though. In normal cerebellum all mossy terminals contain spheroid synaptic vesicles, a characteristic morphological feature of excitatory endings. In the transplant, however, although the majority of mossy terminals contained (small or large) spheroid synaptic vesicles, numerous mossy terminals were filled with ovoid, or pleomorphic synaptic vesciles, a morphological marker of inhibitory terminals. GABA-immunogold reaction, revealed, indeed, the presence of this inhibitory transmitter in mossy terminals containing ovoid synaptic vesicles. Both GABA (-) and GABA (+) mossy terminals formed asymmetric (Gray I-type) synaptic junctions with the surrounding dendritic digits of granule cells. It is suggested that GABA-ergic fibers as well as most non-GABA-ergic axons (originating either from the cerebral cortical graft, or from the cerebellar nucleus) may develop to mossy terminal-like structures as a consequence of the huge deficit in “natural” mossy fibers in this model.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00305141

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Quantitative morphology and synaptology of cerebellar glomeruli in the rat (1988)

Jakab, R. L. ; Hámori, J.

Springer

Anatomy and embryology 179 (1988), S. 81-88

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ISSN: 1432-0568

Keywords: Cerebellar cortex ; Synaptic glomerulus ; Mossy terminal ; Quantitative morphology ; Three-dimensional reconstruction

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Computer-assisted stereological and quantitative morphological approaches were used to analyse cerebellar glomeruli of the “simple type” in serial ultrathin sections. It was found that, of the total volume (110–200 μm3) of the glomeruli studied, 53% was occupied by granule cell dendrites, 34% by mossy terminal and 13% by Golgi axons. None of the four analysed glomeruli contained Golgi cell dendrites. The mossy terminals that were studied received, on the average, 53 granule cell dendrites. All of the dendrites originated from different granule cells and all made synaptic contacts with mossy terminal. However only about 60% of granule cell dendrites made synapses with Golgi axons. The surface of the mossy terminals occupied by synaptic junctions, was found to be 5.4–5.5%. Each granule cell dendrite emitted 3–5 terminal protrusions (“dendritic digits”). Each digit receives one or more synaptic contact from either the mossy terminal (67% of all digits), or from Golgi axon varicosities (25%). Only about 8% of all digits were contacted synaptically by both types of axonal terminals. All of the dendritic digits that were observed made synaptic connections. Each digit was, on the average, connected by symmetric attachment plaques to 4 neighbouring digits. Three-dimensional reconstructions of mossy terminal and some of contacting granule cell dendrites demonstrated that the dendrites curved around the central mossy terminal and were much longer than expected from earlier Golgi-impregnation studies. In addition to mossy terminals and Golgi axons, an axon terminal of small calibre that contained large, empty, spheroid vesicles were occasionally observed. These terminals, which are most likely the axonal varicosities of ascending parallel fibers, made synaptic contacts exclusively with granule cell dendrites at the periphery of the glomeruli. The results demonstrate that, in the rat cerebellum, there is a high degree of convergence of granule cells at a glomernius (53 to 1); and that there is a rich inhibitory input to about 60% of all granule cell dendrites. It is also shown that the main postsynaptic targets, for both mossy and Golgi axons, are the dendritic digits. The presence of synaptic contacts between parallel-fiber-like varicosities and granule cell dendrites may be an additional source of excitation within the glomerulus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00305102

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Elektronenmikroskopische Untersuchung der cerebellaren Rindenatrophie (1965)

Benke, B. ; Hámori, J.

Springer

Acta neuropathologica 5 (1965), S. 275-287

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ISSN: 1432-0533

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Summary Biopsy material of cerebellar cortex of a woman who suffered from a cerebellar syndrom was electron microscopically examined. Above all the stratum moleculare was studied. Lacking older data from literature, the ultrastructure of the stratum moleculare of normal human cerebellum was investigated. The authors describe the electron microscopical differencies between normal material and one case microscopically showing a loss of Purkinje cells. The differencies mainly consist in desintegration of Purkinje cells, their dendrites, and thorn synapses as well as in a local proliferation of glia.

Notes: Zusammenfassung Die Autoren untersuchten elektronenmikroskopisch ein Biopsiematerial, welches aus dem Kleinhirn einer Patientin entnommen worden war, die klinisch ein Kleinhirnsyndrom zeigte. In erster Linie wurde das Stratum moleculare studiert. Aus Mangel an älteren Literaturangaben wurde zum Vergleich auch die Feinstruktur des Stratum moleculare des normalen, menschlichen Kleinhirns untersucht. Die Autoren beschrieben den submikroskopischen Unterschied zwischen dem normalen Material und demjenigen, welches ein mit dem Lichtmikroskop wahrnehmbares Fehlen der Purkinjezellen zeigte; im wesentlichen besteht er in einem Verschwinden der Purkinjezellen, ihrer Fortsätze und der Dornensynapsen sowie stellenweise in einer Vermehrung der Glia.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00686523

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5

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Identification under the electron microscope of climbing fibers and their synaptic contacts (1966)

Hámori, J. ; Szentágothai, J.

Springer

Experimental brain research 1 (1966), S. 65-81

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ISSN: 1432-1106

Keywords: Cerebellum ; Cerebellar synaptology ; Climbing fibers ; synapses

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary An attempt is made to identify, under the electron microscope, the climbing fibers of the cerebellum (in the cat) and their synaptic contacts with Purkinje cells and other cortical neurons. — Two kinds of axonal profiles, having synaptic contacts with primary and secondary dendrites of Purkinje neurons, can be recognized: One being terminal fibers densely packed with neurofilaments, having mainly contacts “de passage” with the dendrite surface, with small accumulations of synaptic vesicles at the presynaptic side of the contact. The others are rather knob-shaped contacts filled with synaptic vesicles and poor in neurofilaments. In chronically isolated folia, in which only local neurons and their processes have survived, all filamentous profiles have disappeared while vesicular ones are not appreciably reduced in number. It is inferred from this, that the neurofilamentous profiles correspond to climbing fibers, whereas the vesicular ones could be the endings of outer stellate axons, recurrent Purkinje axon collaterals, or ascending basket axon collaterals. — Similar two kinds of axon-terminal profiles are found in synaptic contact with Golgi and basket cell bodies. As in chronically isolated folia only the vesicular profiles survive, it is inferred that the climbing fiber has axo-somatic terminals on Golgi cells and basket cells as well. Previous information of this kind, gained with the light microscope and with degeneration studies, is thus substantiated with the aid of the electron microscope. The vesicular presynaptic profiles on Golgi and basket neurons are in the first case certainly and in the second with high probability endings of recurrent Purkinje axon collaterals. — The few axosomatic synapses found on outer stellate neurons may also be terminals of climbing fibers, but degeneration evidence for this is not conclusive. — The observations are summarized and evaluated from the functional point of view in a diagram, with consideration to recent physiological information on the function of climbing fibers.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235210

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6

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Quantitative histological analysis of the cerebellar nuclei in the cat. I. Numerical data on cells and on synapses (1977)

Palkovits, M. ; Mezey, Éva ; Hámori, J. ; [et al.]

Springer

Experimental brain research 28 (1977), S. 189-209

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ISSN: 1432-1106

Keywords: Cerebellar nuclei, cat ; Quantitative histology ; Numerical connectivity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The tissue volume, cell number, cell density, as well as the numbers and densities of various kinds of synaptic terminals were determined in the cerebellar nuclei of adult cats by means of stereological procedures both on the light and electron microscopic levels. The total number of the cerebellar nuclear cells was found to be 4.6×104. On the basis of karyometric studies the medial and interpositus nuclei appear to contain two, the lateral nucleus probably three different neuron populations. The over-all numerical ratio between Purkinje and nuclear cells is 26:1. On the basis of simplified cytological and size criteria five different types of synaptic terminals were distinguished and counted separately. The total number of synaptic boutons was found to be 9.2×108, 62% of which (5.7×108) belong to Purkinje axons. The average number of synaptic boutons per nuclear cell is 2×104 with systematic differences in the several nuclei (medial = 27500; interpositus = 18000; lateral = 13900). The number of boutons of Purkinje cell origin is 11600 per nuclear cell, on the average. The average number of synaptic boutons per Purkinje axon is 474, which are distributed in a space of about 13.5×106 μm3. In view of the density of the nuclear cells and the metric parameters of their dendrites, the number of nuclear cells with which synapses might be established is 35. This is a direct measure for the divergence; i.e. one Purkinje axon may reach potentially 35 nuclear cells. The number on any nuclear cell of boutons that originate from the same Purkinje axon would be mathematically 13.5 as an average, but may vary excessively between 1 and around 50 boutons. From these data the probable convergence of Purkinje axons upon nuclear cells can be deduced as being numerically somewhere around 860, however, this apparently excessive value is mitigated by the Golgi observation that a single Purkinje axon may contribute to the same nuclear cell as many as 50 somatic synapses. The dendritic synapses — forming the vast majority of all contacts — are probably more evenly distributed among the great majority of the converging Purkinje axons but with correspondingly fewer individual contacts.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237096

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7

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Serial and triadic synapses in the cerebellar nuclei of the cat (1977)

Hámori, J. ; Mezey, É.

Springer

Experimental brain research 30 (1977), S. 259-273

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ISSN: 1432-1106

Keywords: Cerebellum ; Nuclei ; Triadic synapses

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A quantitative electron microscopic investigation of the nucleus interpositus in cat cerebellum reveals that about 1.5% of all observed synapses are established between synaptic vesicle-bearing profiles. It is shown by serial sections that 70% of these synaptic complexes are triadic arrangements and 30% are serial synapses. Further analysis discloses that the first presynaptic element in the triadic and serial synapses may be one of four different axonal types: (A) Purkinje-cell axons; (B) and (C) afferent fibers containing large round vesicles and originating from the brain stem (probably mossy and climbing fiber collaterals); and (D) axon terminals containing small round vesicles. Indirect evidence suggests that type D profiles are the recurrent axon collaterals of the projective neurons. The second, postsynaptic and presynaptic, vesicle-bearing process in these complexes is either a class D terminal, or a somewhat more “dendrite-like” profile (Class E) containing flattened vesicles, and identified as belonging to processes of local Golgi type II interneurons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237255

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8

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Electron microscopic identification of cerebellar nucleo-cortical mossy terminals in the rat (1981)

Hámori, J. ; Mezey, Éva ; Szentágothai, J.

Springer

Experimental brain research 44 (1981), S. 97-100

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ISSN: 1432-1106

Keywords: Nucleo-cortical fibers ; Cerebellum ; Mossy terminals ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Intact mossy terminals observed in the granular layer of rat cerebella, two weeks after complete transection of all cerebellar peduncles, were identified as the endings of the intracerebellar nucleo-cortical afferents. A quantitative study of synaptic vesicle size spectra revealed clear differences between nucleo-cortical and true extracerebellar mossy afferents. These differences suggest that the nucleo-cortical afferents are recurrent collaterals of the projective nucleofugal fibers.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238753

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Identification of synapses formed in the cerebellar cortex by purkinje axon collaterals: an electron microscope study (1968)

Hámori, J. ; Szentágothai, J.

Springer

Experimental brain research 5 (1968), S. 118-128

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ISSN: 1432-1106

Keywords: Cerebellum ; Cerebellar synaptology ; Purkinje axon collaterals

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Purkinje axon collaterals and their synaptic terminals can be identified on the basis of three criteria: (1) They are the only myelinated axons of local elements, hence any myelinated axon persisting in chronically isolated folium is a Purkinje axon or its collateral; (2) They are the only known transfolial axons, so that axons and synapses found in the state of secondary degeneration after lesions placed into neighbouring folia of the cerebellar cortex are Purkinje axon collaterals and synapses; (3) The peculiar axonal tubular systems described by Andres (1965) are specific for Purkinje axons and their synaptic endings, which offers an additional clue for their identification. Using these three criteria numerous synapses of Purkinje axon collateral endings have been identified on the large Golgi neurons, both cell bodies and principal dendrites, and on the bodies of basket neurons. No evidence of the termination of Purkinje axon collaterals on other Purkinje cells could be detected.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00238701

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GABA-immunoreactive neurons in the dorsal lateral geniculate nucleus of the rat: characterisation by combined Golgi-impregnation and immunocytochemistry (1986)

Gabbott, P. L. A. ; Somogyi, J. ; Stewart, M. G. ; [et al.]

Springer

Experimental brain research 61 (1986), S. 311-322

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ISSN: 1432-1106

Keywords: Rat ; Dorsal lateral geniculate nucleus (dLGN) ; Interneurons ; Golgi/EM ; GABA immunocytochemistry

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Identified neurons in the dorsal lateral geniculate nucleus (dLGN) of the rat were studied using a Golgi/EM procedure in combination with post-embedding GABA immunocytochemistry. The results of this investigation identify clearly the GABA-immunoreactive nature of the two morphologically] distinct neuronal populations found within the rat dLGN — thalamocortical relay cells are GABA-immunonegative whilst the putative ‘interneurons’ are GABA-immunopositive. This immunocytochemical evidence strongly suggests that ‘interneurons’ synthesize and use GABA to mediate their local inhibitory synaptic mechanisms within the dLGN of the rat.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239521

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