Abstract

The focus of the research program is the synaptic control of the excitability of a retinal interneuron, the axon-bearing horizontal cell (HC1) of clawed frogs (Xenopus) and turtle retinas. In Xenopus, the HC1 is GABAergic and it receives direct synaptic input from green-sensitive rods, red-sensitive cones and a glycinergic interplexiform cell. Electrophysiological, pharmacological and morphological methods will be utilized to characterize (a) a GABA-sensitive HC1 to cone feedback synapse, (b) the non-linear summation of rod and cone inputs to the HC1 and (c) the influence of inner retinal neurons, acting through the glycinergic IPC, on rod-cone summation. In addition, we will characterize the GABA-sensitive channels in the cone synaptic base and the glycine-sensitive channels in the HC by voltage-clamp studies of solitary cells. In the turtle retinas, we seek to characterize the control of the electrical coupling among neighboring HC1 by a dopamine system. Electrophysiological and pharmacological studies will define the mechanisms controlling dopamine synthesis and release. Receptor binding studies seek to identify D1-type dopamine receptors on HC1 and D2-type dopamine receptors on a dopaminergic amacrine cell. The possibility that GABAergic amacrines contact dopaminergic amacrines in the inner plexiform layer will be studied by combined autoradiography and EM immunocytochemistry.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY003570-15
Application #
2158850
Study Section
Visual Sciences A Study Section (VISA)
Project Start
1980-04-01
Project End
1996-03-31
Budget Start
1994-04-01
Budget End
1995-03-31
Support Year
15
Fiscal Year
1994
Total Cost
Indirect Cost

  Institution

Name
New York University
Department
Ophthalmology
Type
Schools of Medicine
DUNS #
004514360
City
New York
State
NY
Country
United States
Zip Code
10012

  Publications

Heidelberger, Ruth; Thoreson, Wallace B; Witkovsky, Paul (2005) Synaptic transmission at retinal ribbon synapses. Prog Retin Eye Res 24:682-720
Witkovsky, Paul; Arango-Gonzalez, Blanca; Haycock, John W et al. (2005) Rat retinal dopaminergic neurons: differential maturation of somatodendritic and axonal compartments. J Comp Neurol 481:352-62
Vigh, Jozsef; Witkovsky, Paul (2004) Neurotransmitter actions on transient amacrine and ganglion cells of the turtle retina. Vis Neurosci 21:1-11
Witkovsky, Paul (2004) Dopamine and retinal function. Doc Ophthalmol 108:17-40
Witkovsky, Paul; Veisenberger, Eleonora; Haycock, John W et al. (2004) Activity-dependent phosphorylation of tyrosine hydroxylase in dopaminergic neurons of the rat retina. J Neurosci 24:4242-9
Witkovsky, Paul; Veisenberger, Eleonora; LeSauter, Joseph et al. (2003) Cellular location and circadian rhythm of expression of the biological clock gene Period 1 in the mouse retina. J Neurosci 23:7670-6
Akopian, Abram; Witkovsky, Paul (2002) Calcium and retinal function. Mol Neurobiol 25:113-32
Gabriel, Robert; de Souza, Sunita; Ziff, Edward B et al. (2002) Association of the AMPA receptor-related postsynaptic density proteins GRIP and ABP with subsets of glutamate-sensitive neurons in the rat retina. J Comp Neurol 449:129-40
Thoreson, Wallace B; Stella Jr, Salvatore L; Bryson, Eric I et al. (2002) D2-like dopamine receptors promote interactions between calcium and chloride channels that diminish rod synaptic transfer in the salamander retina. Vis Neurosci 19:235-47
Witkovsky, P; Thoreson, W; Tranchina, D (2001) Transmission at the photoreceptor synapse. Prog Brain Res 131:145-59

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