Abstract
Ground-feeding birds such as pigeons possess the most developed isthmo-optic nucleus in all classes of vertebrates. A previous study showed that this centrifugal or retinopetal nucleus modulates visual activity in tectal cells of pigeons; the present study aimed at revealing the morphology and possible dye-coupling of neurons in the isthmo-optic nucleus and in the ectopic cell region by intracellular injections of Lucifer yellow into neurons in slices, One hundred and twelve successfully labeled cells of the isthmo-optic nucleus were classified into bipolar (83%) and multipolar (17%) types, each of which was further divided into two subtypes, B and P and M and N, respectively. Neurons of B- and P-types are similar in that they have apical dendrites and axons usually arising from the opposite pole of piriform perikarya, but they differ in the length (20-120 vs, 10-20 mu m) of their dendritic stems; M- and N-types possess polygonal perikarya giving rise to two to five primary dendrites either in the same orientation (M) or in a radiation fashion (N), and their axons originate from perikarya or occasionally from dendritic stems. Twelve single-injections resulted in the labeling of 26 cells, including 11 pairs and 1 quadruple labeling. About half of these are closely apposed 'twin- cells'. Dye-coupling was found only between neighboring cells in the cell lamina. Thirteen cells in the ECR rostroventral to the ION were labeled and could be grouped into large or L- (46%) and small or S- (54%) types, mainly depending on the dendritic field size and the number of primary dendrites. No dye-coupling was observed between the presumptive ECR cells. The functional role of the ION and the significance of dye-coupling between neurons are discussed.
Original language | English |
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Pages (from-to) | 67-74 |
Number of pages | 8 |
Journal | Brain Behavior and Evolution |
Volume | 53 |
Publication status | Published - Feb 1999 |
Keywords
- isthmo-optic nucleus
- ectopic cell region
- dye-coupling
- Lucifer yellow
- neuronal morphology
- pigeon
- RETROGRADE TRANSNEURONAL TRANSPORT
- RHODAMINE BETA-ISOTHIOCYANATE
- CENTRIFUGAL VISUAL-SYSTEM
- RETINAL GANGLION-CELLS
- AVIAN RETINA
- TECTAL NEURONS
- COLUMBA-LIVIA
- ELECTRICAL-STIMULATION
- JAPANESE-QUAIL
- PROJECTIONS