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A temporal analysis of the origin and distribution of serotoninergic afferents in the cerebellum of pouch young opossums (1988)

Bishop, Georgia A. ; Ho, Raymond H. ; King, James S.

Springer

Anatomy and embryology 179 (1988), S. 33-48

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ISSN: 1432-0568

Keywords: Ontogenesis ; Serotonin ; Developmental Plasticity ; Cerebellar Cortex ; Opossum

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In the present study, a temporal analysis of the pattern of distribution of serotoninergic fibers and varicosities within the cerebellum of pouch young opossums was carried out. Particular attention was focused on animals ranging in age from postnatal day (PD) 21-PD 72, because there is a transient expression of serotonin immunoreactivity in the cerebellar cortex during that interval. Between PD 1–33, there is a progressive increase in serotoninergic immunoreactivity throughout the cerebellar cortex. After PD 33, there is a decrease in the relative number of immunostained fibers followed by a reorganization into the adult pattern of distribution. A double labeling paradigm, in which horseradish peroxidase, used as a retrograde marker, combined with serotonin immunohistochemistry was employed to localize serotoninergic neurons that project to the developing cerebellum. Initially (PD 9), serotoninergic cells in the medullary reticular formation and dorsolateral pontine tegmentum are double labeled. After PD 77, only neurons in the medullary reticular formation were double labeled. The course taken by serotoninergic axons from the brainstem to the cerebellum also was analyzed. Between PD 1 and PD 42, serotoninergic axons enter the cerebellum via four different routes: 1) the inferior cerebellar peduncle; 2) a pathway located lateral and rostral to the inferior cerebellar peduncle; this bundle of serotonin axons contains immunoreactive fibers that also enter the tectum (this tract is referred to as the tecto-cerebellar bundle in this report); 3) the medial aspect of the superior cerebellar peduncle; and 4) the tela choroidea. After PD 40, the latter two pathways are the primary routes by which serotoninergic fibers enter the cerebellum. The loss of serotoninergic fibers in the first two pathways coincides with the decrease in serotoninergic immunoreactivity seen in the cerebellar cortex described above. In summary, the results suggest that the serotoninergic projection to the opossum's cerebellum is remodelled during development. It is proposed that the serotonin fibers present at early stages of development may play a role in regulating specific events in cerebellar maturation. In contrast, the serotoninergic axons which have a more restricted pattern of distribution later in development, and in the adult, likely modulate neuronal activity within the cerebellum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00305098

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An immunohistochemical study of serotonin development in the opossum cerebellum (1985)

Bishop, Georgia A. ; Ho, Raymond H. ; King, James S.

Springer

Anatomy and embryology 171 (1985), S. 325-338

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ISSN: 1432-0568

Keywords: Immunohistochemistry ; Transmitter localization ; 5-Hydroxytryptamine ; Serotonin ; Development ; Cerebellum

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In the present study we have used the indirect antibody peroxidase anti-peroxidase technique to analyze the development of serotonin in the cerebellum of pouch young opossums ranging in age from birth (postnatal day (PD) 1) — to PD 47. The pathways by which serotoninergic axons enter the cerebellum appear to change during development. Between PD 1 and PD 11 varicose serotoninergic fibers course though the continuity between the tectum and the dorsal medial aspect of the cerebellar plate and distribute primarily to the intermediate zone. By PD 11 serotoninergic fibers enter the cerebellum via a connecting band between the cerebellum and the dorsal lateral aspect of the rostral medulla. Fibers entering the cerebellum via this later route course around the lateral recess of the fourth ventricle and initially distribute to ventral and lateral areas of the cerebellum. At later developmental ages (PD 14–PD 47) serotoninergic fibers are present in: 1) the cellular zone of migration between the Purkinje cell layer and deep nuclei; 2) the Pukinje cell layer; 3) the internal granule cell layer; and 4) the deep cerebellar nuclei. The external granule cell and the molecular layers rarely contain serotoninergic fibers. The present study has shown that serotonin is present in the cerebellar anlage on PD 1 (within 13 days of conception). This is prior to the arrival of other major afferent systems (King et al. 1982; Bishop et al. 1983; Martin et al. 1983; Morgan et al. 1983). Further, serotoninergic axons reach the cerebellum via different routes at different stages of development. The presence of serotonin in the intermediate zone early in development supports the hypothesis that it may influence neuronal migration and differentiation (Lander and Krebs 1976). Axons containing serotonin and arriving later in development may function in synaptic transmission, a role proposed for this indoleamine in the adult (Strahlendorf et al. 1979).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00347021

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Anatomical evidence for enkephalin immunoreactive climbing fibres in the cerebellar cortex of the opossum (1986)

King, James S. ; Ho, Raymond H. ; Bishop, Georgia A.

Springer

Journal of neurocytology 15 (1986), S. 545-559

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ISSN: 1573-7381

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Enkephalin immunoreactivity is present in the cerebellum of the adult opossum within axonal arbors that resemble mature climbing fibres. In the developing cerebellum, enkephalinergic axons form pericellular nests around the perikarya of Purkinje cells in a manner which resembles developing climbing fibres seen in Golgi impregnations. Serial electron micrographs of adult climbing fibres reveal elongate enkephalin immunoreactive profiles that contain synaptic vesicles and make contact with the thorns and shafts of Purkinje cell dendrites. These results suggest that a peptide, enkephalin or an enkephalin-like substance may mediate synaptic interactions between certain populations of climbing fibres and Purkinje cells in the cerebellum of the opossum. Enkephalin immunoreactive axonal arbors, present in the molecular layer, are localized in restricted areas of vermal lobules II–VIII and X. The intermediate cortex and hemispheres are devoid of enkephalinergic climbing fibres except in restricted areas of the paramedian lobule, paraflocculus and the flocculus. In an attempt to establish the origin of enkephalin axons in the cerebellum, a double labelling technique that combines retrograde labelling of cells with horseradish peroxidase and enkephalin immunohistochemistry has been employed. Enkephalin immunoreactive neurons within specific portions of the medial accessory olive are retrogradely labelled in this paradigm. The presence of enkephalin immunoreactivity in selected climbing fibres provides evidence for chemical heterogeneity within one of the major afferent systems to the cerebellum previously thought to be uniform in its transmitter content.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01611856

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Widespread distribution of substance P-and somatostatin-immunoreactive elements in the spinal cord of the neonatal rat (1983)

Ho, Raymond H.

Springer

Cell & tissue research 232 (1983), S. 471-486

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ISSN: 1432-0878

Keywords: Neonate ; Substance P ; Somatostatin ; Spinal cord

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The distribution of substance P (SP)- and somatostatin (SOM)-immunoreactive elements in the spinal cord of the neonatal rat was examined. With few exceptions, the distribution of SP-immunoreactive elements is similar to that described for the adult. A major difference is the obvious presence of SP-immunoreactive fibers in all funiculi of neonatal cords. In addition, an obvious small bundle of longitudinal SP immunoreactive fibers is seen in the base of the dorsal horn at rostral cervical levels. Unlike that of the adult, the neonatal spinal cord shows a widespread distribution of SOM-immunoreactivity. SOM-immunoreactive fibers are present in all funiculi. SOM-immunoreactive perikarya of various shapes and sizes are widely dispersed throughout the gray matter. The cell density is increased in the superficial laminae of the dorsal horn, in a region ventral-lateral to the central canal and in the ventral horn. SOM-immunoreactive varicosities are present in moderate amounts in the superficial laminae of the dorsal horn but are extremely sparse in other regions of the gray matter. A few SOM-immunoreactive fibers course longitudinally at the base of the dorsal horn at rostral levels of the cord. These fibers are found in the same region occupied by the longitudinal SP-immunoreactive fibers referred to above.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00216422

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