The objective is to investigate the metabolism of cyclic nucleotides in normal and diseased visual cells with a special emphasis in the less biochemically characterized cones. In addition, we wish to investigate the mechanism by which elevated cyclic nucleotide levels affect the viability of photoreceptor cells in some retinal degenerations. Our work has suggested that in contrast to the function that cGMP plays in rods, cAMP may be more important than cGMP in cone-dominant retinas since cAMP concentration is higher, cAMP levels are decreased by light, and elevated levels of cAMP seem to be more toxic and cause the specific degeneration of cones. However, to establish that cones and rods utilize different cyclic nucleotides as intracellular regulators it is necessary to study isolated cone photoreceptors because the rest of the retina interferes with its own cAMP metabolism. Using isolated cone cells we will study their cyclic nucleotide content, activities, kinetics and regulation of cyclic nucleotide synthetic and degradative enzymes, and investigate if cyclic nucleotide action is modulated by the phosphorylation of specific proteins. We will determine whether light reduces cyclic nucleotide levels and whether activities of the metabolic enzymes are coupled to bleaching of the visual pigment. The same enzyme systems will also be studied in developing cone-like photoreceptors grown in culture, obtained from dissociated retinas of chick embryos. In addition, we will continue to collect baseline data on cyclic nucleotide metabolism in normal human retina to be used for comparison with results from retinas affected with Retinitis Pigmentosa, macular degeneration or other retinal diseases, whenever these retinas become available. To gain insight into how elevated cyclic nucleotide levels participate in visual cell degeneration, we will study first degeneration of rods in the rd mouse, since we have several probes on hand and clues about what components need to be analyzed. In the future, when more is known about cones and probes are developed, we will focus our attention on cone degeneration. We will use antibodies and molecular biology methods to measure concentration and synthesis of cGMP-phosphodiesterase (PDE), the activity of which is abnormal in rd retina, and mRNAs that code for G-protein and rhodopsin, which are needed for PDE activation. We will also clone cDNAs for PDE and rhodopsin from control and rd retinas. Analyses of the cDNA sequences may reveal anomalies associated with the cause of the rd mouse disease and further our understanding of photoreceptor degeneration.

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
5R01EY002651-11
Application #
3256970
Study Section
Visual Sciences A Study Section (VISA)
Project Start
1978-08-01
Project End
1991-07-31
Budget Start
1988-08-01
Budget End
1989-07-31
Support Year
11
Fiscal Year
1988
Total Cost
Indirect Cost
Name
University of California Los Angeles
Department
Type
Schools of Medicine
DUNS #
119132785
City
Los Angeles
State
CA
Country
United States
Zip Code
90095
Verardo, Mark R; Viczian, Andrea; Piri, Natik et al. (2009) Regulatory sequences in the 3' untranslated region of the human cGMP-phosphodiesterase beta-subunit gene. Invest Ophthalmol Vis Sci 50:2591-8
Souied, Eric H; Reid, Silvia N M; Piri, Natik I et al. (2008) Non-invasive gene transfer by iontophoresis for therapy of an inherited retinal degeneration. Exp Eye Res 87:168-75
Tsang, S H; Woodruff, M L; Janisch, Kerstin M et al. (2007) Removal of phosphorylation sites of gamma subunit of phosphodiesterase 6 alters rod light response. J Physiol 579:303-12
Gao, Yong-Qing; Danciger, Michael; Ozgul, Riza Koksal et al. (2007) Association of the Asn306Ser variant of the SP4 transcription factor and an intronic variant in the beta-subunit of transducin with digenic disease. Mol Vis 13:287-92
Lerner, Leonid E; Piri, Natik; Farber, Debora B (2006) Transcriptional and post-transcriptional regulation of the rod cGMP-phosphodiesterase beta-subunit gene. Recent advances and current concepts. Adv Exp Med Biol 572:217-29
Tsang, Steven H; Woodruff, Michael L; Chen, Ching-Kang et al. (2006) GAP-independent termination of photoreceptor light response by excess gamma subunit of the cGMP-phosphodiesterase. J Neurosci 26:4472-80
Lerner, Leonid E; Peng, Guang-Hua; Gribanova, Yekaterina E et al. (2005) Sp4 is expressed in retinal neurons, activates transcription of photoreceptor-specific genes, and synergizes with Crx. J Biol Chem 280:20642-50
Linberg, Kenneth A; Fariss, Robert N; Heckenlively, John R et al. (2005) Morphological characterization of the retinal degeneration in three strains of mice carrying the rd-3 mutation. Vis Neurosci 22:721-34
Piri, Natik; Gao, Yong Qing; Danciger, Michael et al. (2005) A substitution of G to C in the cone cGMP-phosphodiesterase gamma subunit gene found in a distinctive form of cone dystrophy. Ophthalmology 112:159-66
Viczian, A S; Verardo, M; Zuber, M E et al. (2004) Conserved transcriptional regulation of a cone phototransduction gene in vertebrates. FEBS Lett 577:259-64

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