Your search keyword '"Hellmann B"' showing total 6 results

1. Tectal mosaic: organization of the descending tectal projections in comparison to the ascending tectofugal pathway in the pigeon.

Author

Hellmann B, Güntürkün O, and Manns M

Subjects

Animals, Female, Fluorescent Dyes, Functional Laterality physiology, Immunoenzyme Techniques, Male, Nerve Net anatomy & histology, Neurons physiology, Pons anatomy & histology, Pons cytology, Spinal Cord anatomy & histology, Spinal Cord cytology, Superior Colliculi cytology, Tissue Fixation, Visual Fields physiology, Visual Pathways cytology, Columbidae anatomy & histology, Superior Colliculi anatomy & histology, Visual Pathways anatomy & histology

Abstract

The optic tectum of vertebrates is an essential relay station for visuomotor behavior and is characterized by a set of connections that comprises topographically ordered input from the eyes and an output that reaches premotor hindbrain regions. In the avian tectofugal system, different ascending cell classes have recently been identified based on their dendritic and axonal projection patterns, although comparable information about the descending cells is missing. By means of retrograde tracing, the present study describes the detailed morphology of tectal output neurons that constitute the descending tectobulbar and tectopontine pathways in pigeons. Descending cells were more numerous in the dorsal tectum and differed in terms of 1) their relative amount of ipsi- vs. contralateral projections, 2) the location of the efferent cell bodies within different tectal layers, and 3) their differential access to visual input via dendritic ramifications within the outer retinorecipient laminae. Thus, the descending tectal system is constituted by different cell classes presumably processing diverse aspects of the visual environment in a visual field-dependent manner. We demonstrate, based on a careful morphological analysis and on double-labeling experiments, that the descending pathways are largely separated from the ascending projections even when they arise from the same layers. These data support the concept that the tectum is arranged as a mosaic of multiple cell types with diverse input functions at the same location of the tectal map. Such an arrangement would enable the tectal projections onto diverse areas to be both retinotopically organized and functionally specific., (Copyright 2004 Wiley-Liss, Inc.)

Published

2004

2. The architecture of an inhibitory sidepath within the avian tectofugal system.

Author

Theiss MP, Hellmann B, and Güntürkün O

Subjects

Animals, Glutamate Decarboxylase analysis, Immunohistochemistry, Parvalbumins analysis, Receptors, AMPA analysis, Receptors, GABA-A analysis, Superior Colliculi physiology, Visual Pathways chemistry, Visual Pathways physiology, Columbidae, Neural Inhibition, Superior Colliculi anatomy & histology, Visual Pathways anatomy & histology, gamma-Aminobutyric Acid

Abstract

The tectofugal system dominates vision in most avian species. A key component of this pathway is the projection from the optic tectum onto the nucleus rotundus and the nucleus subpretectalis. Since subpretectalis has inhibitory projections onto rotundus, it constitutes a modulatory tectofugal sidepath to the tectorotundal system. We analyzed the connections and the immunocytochemical pattern of the subpretectalis in pigeons and show that it receives afferents from some tectal celltypes and from the nucleus pretectalis. Subpretectalis-neurons project non-topographically onto pretectalis and the rostrolateral rotundus. In addition, our immunocytochemical data make it likely that the cells of the subpretectalis receive glutamatergic and GABAergic input. These data provide evidence that the tectofugal sidepath over the subpretectalis could be involved in two major functions: The first is a modulation of attentional shifts from one eye to the other, while the second is a temporal fine-tuning of rotundal units.

Published

2003

3. Nucleus isthmi, pars semilunaris as a key component of the tectofugal visual system in pigeons.

Author

Hellmann B, Manns M, and Güntürkün O

Subjects

Animals, Cholera Toxin pharmacokinetics, Choline O-Acetyltransferase metabolism, Columbidae metabolism, Fluorescent Dyes pharmacokinetics, Immunohistochemistry, Neurons cytology, Neurons metabolism, Receptors, AMPA metabolism, Superior Colliculi metabolism, Visual Pathways metabolism, gamma-Aminobutyric Acid metabolism, Columbidae anatomy & histology, Superior Colliculi cytology, Visual Pathways cytology

Abstract

The avian isthmic nuclei are constituted by a group of structures reciprocally connected with the tectum opticum and considered to play a role in the modulation of intratectal processes. Although the two larger isthmic nuclei, the n. isthmi pars parvocellularis (Ipc) and the n. isthmi pars magnocellularis (Imc), have been studied in detail previously, the third and smallest of this group, the n. isthmi pars semilunaris (SLu), has been largely neglected. The present study demonstrates this isthmic component to be characterized by a unique connectivity and immunohistochemical pattern: 1) SLu receives tectal afferents and projects back onto the outer retinorecipient tectal layers; 2) it projects bilaterally onto the nucleus rotundus and thus modulates the ascending tectofugal system; 3) in addition, previous studies have demonstrated SLu projections onto the lateral spiriform nucleus (SpL), which mediates basal ganglia output onto the tectum. In that SpL projects onto the deep layers of the tectum, SLu indirectly modulates descending tectal output patterns. Taken together, the role of SLu goes far beyond a local modulation of intratectal processes. Instead, this isthmic structure is likely to play a key role in the topographically organized modulation of the ascending and, at least indirectly, also the descending projections of the optic tectum., (Copyright 2001 Wiley-Liss, Inc.)

Published

2001

4. Structural organization of parallel information processing within the tectofugal visual system of the pigeon.

Author

Hellmann B and Güntürkün O

Subjects

Animals, Cell Size physiology, Cholera Toxin pharmacology, Columbidae physiology, Female, Male, Neurons physiology, Superior Colliculi physiology, Thalamus physiology, Visual Pathways physiology, Columbidae anatomy & histology, Neurons cytology, Pattern Recognition, Visual physiology, Superior Colliculi cytology, Thalamus cytology, Visual Pathways cytology

Abstract

Visual information processing within the ascending tectofugal pathway to the forebrain undergoes essential rearrangements between the mesencephalic tectum opticum and the diencephalic nucleus rotundus of birds. The outer tectal layers constitute a two-dimensional map of the visual surrounding, whereas nucleus rotundus is characterized by functional domains in which different visual features such as movement, color, or luminance are processed in parallel. Morphologic correlates of this reorganization were investigated by means of focal injections of the neuronal tracer choleratoxin subunit B into different regions of the nuclei rotundus and triangularis of the pigeon. Dependent on the thalamic injection site, variations in the retrograde labeling pattern of ascending tectal efferents were observed. All rotundal projecting neurons were located within the deep tectal layer 13. Five different cell populations were distinguished that could be differentiated according to their dendritic ramifications within different retinorecipient laminae and their axons projecting to different subcomponents of the nucleus rotundus. Because retinorecipient tectal layers differ in their input from distinct classes of retinal ganglion cells, each tectorotundal cell type probably processes different aspects of the visual surrounding. Therefore, the differential input/output connections of the five tectorotundal cell groups might constitute the structural basis for spatially segregated parallel information processing of different stimulus aspects within the tectofugal visual system. Because two of five rotundal projecting cell groups additionally exhibited quantitative shifts along the dorsoventral extension of the tectum, data also indicate visual field-dependent alterations in information processing for particular visual features., (Copyright 2001 Wiley-Liss, Inc.)

Published

2001

5. Visual-field-specific heterogeneity within the tecto-rotundal projection of the pigeon.

Author

Hellmann B and Güntürkün O

Subjects

Animals, Brain Mapping, Coloring Agents, Histocytochemistry, Visual Pathways physiology, Columbidae physiology, Superior Colliculi physiology, Synaptic Transmission physiology, Thalamic Nuclei physiology, Visual Fields physiology

Abstract

The organization of the tecto-rotundal projection of the pigeon was investigated by means of anterograde and retrograde tracing techniques. Besides the known organization in tecto-rotundal connectivity, this study additionally demonstrates major variations in the ascending projections of different tectal subfields. We show that the ventral tectum opticum (TO) has significantly more projections onto the nucleus rotundus (Rt) than dorsal tectal areas. This difference coincides with differential innervation densities of afferent fibres within rotundal subregions. While ventral tectal efferents project onto the ventral and central Rt, dorsal tectal efferents mainly arborize within limited areas between the central Rt and its dorsal cap, the nucleus triangularis. Thus, the ventral TO, representing the lower and frontal field of view, exhibits a quantitatively and spatially enhanced projection onto the Rt, as compared with the dorsal TO. The data presented here demonstrate a visual field-dependent projection pattern of ascending tectal outputs onto different rotundal domains. The data are consistent with behavioural studies, demonstrating tectofugal lesions to suppress visual stimulus analysis mainly within the frontal field of view.

Published

1999

6. The differential distribution of AMPA-receptor subunits in the tectofugal system of the pigeon.

Author

Theiss C, Hellmann B, and Güntürkün O

Subjects

Animals, Columbidae, Fluorescent Antibody Technique, Indirect, Immunohistochemistry, Optic Nerve anatomy & histology, Superior Colliculi anatomy & histology, Visual Pathways anatomy & histology, Neurons cytology, Optic Nerve cytology, Receptors, AMPA analysis, Superior Colliculi cytology, Visual Pathways cytology

Abstract

The tectofugal system of the pigeon was examined for the distribution of several glutamate-receptor subunits (AMPA Glu R1, Glu R2/3, Glu R4) and the calcium binding protein parvalbumin. With respect to the different antigens, a heterogeneous distribution was observed. Within the optic tectum, the Glu R1 like immunoreactivity was limited to the layers 2-5, 9, 10, and sparsely in layer 13, whereas the antibody to Glu R2/3 stained cell bodies in layers 9, 10, and very heavily in layer 13. In the rotundus only the Glu R4 antigen was expressed, while within the ectostriatal complex a large number of Glu R2/3 and a smaller contingent of Glu R4 positive neurons were stained. Quantitative analysis proved significant heterogeneities of these antigens in the mesencephalic as well as the diencephalic centre of the tectofugal pathway. The number of Glu R2/3 positive neurons undergoes a two-fold increase from the dorsal to the ventral lamina 13 of the optic tectum. Alterations in the amount of immunoreactive neurons were also observed within the rotundus, since the number of Glu R4 positive cells decreased from dorsal to ventral. Morphological differences and their correlation with functional specializations in visual information processing are discussed., (Copyright 1998 Elsevier Science B.V.)

Published

1998