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Amacrine cells with neurotensin- and somatostatin-like immunoreactivities in three species of teleosts with different color vision (1987)

Wagner, H. -J. ; Zeutzius, I.

Springer

Cell & tissue research 248 (1987), S. 663-673

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ISSN: 1432-0878

Keywords: Retina ; Amacrine cells ; Immunocytochemistry ; Neurotensin ; Somatostatin ; Color vision ; Teleosts

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Neurotensin- and somatostatin-like immunoreactivities were localized by pre-embedding techniques in retinal whole-mounts and radial sections of a monochromatic glass catfish (Kryptopterus bicirrhis), a dichromatic cichlid species (Aequidens pulcher), and the tetrachromatic roach (Rutilus rutilus). Both neuropeptides were observed in perikarya and processes of amacrine cells. For a precise identification of cell types, tangential and radial views were correlated with Golgiimpregnated material. The dendritic pattern defining the morphological subtype of amacrine cells was determined by the given neuropeptide or by the species-specific degree of complexity of retinal structure and function. Neurotensin-like immunoreactivity was localized in amacrine cells of intermediate size, radial symmetry and dendrites with numerous varicosities; they were monostratified in sublayer 3 of the inner plexiform layer. This cell type was common to all three species. In the mono and dichromatic retinas, a single type of amacrine cell with somatostatinlike immunoreactivity was found with radially oriented, varicose dendrites in sublayer 5. In the tetrachromatic roach retina, two somatostatin-positive amacrine cell types were found with very different patterns of ramification; furthermore, both of these types occurred in more than one sublayer. Possible functional implications for color vision of neuropeptide-specific amacrine cells with uniform morphology in all three species and those with a more varied morphology in the tetrachromatic roach are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00216497

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Amacrine cells in the retina of a cyprinid fish: functional characterization and intracellular labelling with horseradish peroxidase (1989)

Djamgoz, M. B. A. ; Downing, J. E. G. ; Wagner, H. J.

Springer

Cell & tissue research 256 (1989), S. 607-622

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ISSN: 1432-0878

Keywords: Retina ; Amacrine cells, sustained, transient ; Horseradish peroxidase ; Inner plexiform layer ; Rutilus rutilus (Teleostei)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Forty amacrine cells in retinae of a cyprinid fish, the roach, were intracellularly labelled with horseradish peroxidase following electrophysiological identification as sustained depolarizing, sustained hyperpolarizing or transient units. Labelled cells were analysed by light microscopy and compared with a catalogue of amacrine cells established in a previous Golgi study on the same species. About 30% of the cell types characterized by the Golgi method were encountered in the present study. When intracellularly labelled cells were differentiated on the basis of their dendritic organization in the plane of the retina, a given electrophysiological response pattern was found to be generated by different morphological types, and vice versa. However, examination of the ramification patterns of the dendrites within the inner plexiform layer (i.e. in the radial dimension of the retina), showed that this morphological parameter of a given amacrine cell could be correlated with its light-evoked response. Several amacrine cell types were found to possess special distal dendrites which arose from the main dendritic branches and extended well over a mm in the retina. Distal dendrites were oriented tangentially with respect to the optic nerve papilla, but did not appear to be involved in any synaptic connectivity. It is concluded that the Golgi-based classification is a valuable tool for identifying intracellularly labelled amacrine cells. However, although the correlation between layering of dendrites in the inner plexiform layer and electrophysiology was generally good, additional physiological parameters would be required to determine whether more extensive parallels exist between structural and functional characteristics of amacrine cells. Alternatively, the considerable morphological diversity of amacrine cells may be of limited physiological significance.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00225611

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