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Dive into the research topics where R. Theodore Fletcher is active.

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Featured researches published by R. Theodore Fletcher.


Experimental Eye Research | 1982

Retinal degenerations in the dog III abnormal cyclic nucleotide metabolism in rod-cone dysplasia

Gustavo D. Aguirre; Debora B. Farber; Richard N. Lolley; Paul J. O'Brien; James P. Alligood; R. Theodore Fletcher; Gerald J. Chader

In dogs bred to develop rod-cone dysplasia, retinal development is normal until 13 days of age.Afterwards, there is an arrest of visual cell differentiation. Rod inner segments remain diminutive and outer segments fail to elongate as in controls; the outer segments show lamellar disorientation and disorganization. Affected visual cells degenerate, but the degeneration process is more rapid and extensive for rods than cones. Cyclic GMP levels become elevated in affected retinas early during the postnatal differentiation of visual cells; this elevation precedes any morphological evidence of photoreceptor disease. Retinal protein synthesis is normal during the time that retinal cGMP levels are rising above control values. The results indicate that the biochemical abnormality which results in elevated retinal cGMP levels is the earliest recognized defect in rod-cone dysplasia.


Experimental Eye Research | 1988

IGF-I receptors in the bovine neural retina: Structure, kinase activity and comparison with retinal insulin receptors

Robert J. Waldbillig; R. Theodore Fletcher; Robert L. Somers; Gerald J. Chader

The retina contains specific high-affinity receptors for insulin-like growth factor-I (IGF-I). Although IGF-I binding was observed in photoreceptor outer segments, the level of this binding was only 10% of that found in whole retina or mixed preparations of rod outer (ROS) and inner (RIS) segments. The higher IGF-I binding activity in RIS and non-photoreceptor regions of the retina suggests these sites as candidates for putative IGF-I action. Data from crosslinking experiments with and without neuraminidase treatment indicate that the binding subunits of the retinal IGF-I receptor exist in two subpopulations (Mr = 121- and 131 kDa), and that the larger of the two subunits has either a greater number or more exposed sialic acid residues. In these characteristics, the retinal IGF-I receptor is similar to the retinal insulin receptor. Retinal IGF-I and insulin receptors possess kinase activity towards their own beta-subunits, a tyrosine containing copolymer, and various molecular forms and subunits of transducin (T alpha-GDP, T alpha-GTP, T beta). The transducin forms are phosphorylated with different efficiencies (e.g. T alpha-GDP is 10-15 times more effective than T alpha-GTP as substrate). These differences are also observed in basal conditions and may reflect differences in transducin subunit affinity for the IGF-I and insulin receptor. In all retinal areas examined, tracer IGF-I binding is 10 to 20-fold higher than insulin binding; however, autophosphorylation levels are approximately equal.


Biochimica et Biophysica Acta | 1974

Light activation of phosphodiesterase activity in retinal rod outer segments

Gerald J. Chader; Lawrence R. Herz; R. Theodore Fletcher

Abstract Light “activates” phosphodiesterase activity of bovine rod outer segments in the presence of 0.1 mM ATP. In contrast, no difference in phosphodiesterase activity can be observed between dark-adapted and light-bleached outer segments in the absence of ATP.


Ophthalmology | 1984

Choroideremia: A Clinical, Electron Microscopic, and Biochemical Report

Merlyn M. Rodrigues; Elmer J. Ballintine; B. Wiggert; Ling Lee; R. Theodore Fletcher; Gerald J. Chader

An asymptomatic 19-year-old male with choroideremia had diffuse loss of retinal pigment epithelium (RPE) and choroid except for the periphery and macula. Fluorescein angiography of the arteriovenous phase showed absence of retinal pigment epithelium and exaggerated visualization of choroidal vessels in involved areas. The mother was a typical carrier with pigment stippling of the midperipheral retina. Histopathologic examination of affected areas of one eye showed marked degeneration of the outer and midretina with loss of retinal pigment epithelium and Bruchs membrane, absence of choriocapillaris, chorioretinal adhesions and gliosis. Atrophy of inner and mid-choroid was also observed. Pigmented macrophage-like cells had migrated into the outer and midretinal layers. Electron microscopy disclosed macrophage-like cells with trilaminar structures and photoreceptor phagosomes in the RPE and outer retina. Remnants of photoreceptor outer segments were adherent to the plasma membranes of the macrophage-like cells. Biochemical analysis of retinal tissue samples for interphotoreceptor retinoid-binding protein (IRBP) showed marked reduction in the 146K bands in the equator and posterior pole in the patient compared to controls. Cyclic nucleotide content was altered in the retinal equator. Cyclic AMP was several-fold higher in the RPE-choroid complex of the affected eye than in the control.


Experimental Eye Research | 1991

Insulin and IGF-I binding in developing chick neural retina and pigment epithelium: A characterization of binding and structural differences

Robert J. Waldbillig; D. R. Arnold; R. Theodore Fletcher; Gerald J. Chader

We have characterized insulin and insulin-like growth factor I (IGF-I) binding sites in developing chick retina and pigment epithelium (10- and 14-day embryonic, and 2-week post-hatched). For comparison, binding sites in brain and liver were also examined. Both the retina and pigment epithelium (PE) contain separate, specific, high affinity binding sites for insulin and IGF-I. In both tissues, IGF-I binding exceeds insulin binding by two to threefold. Insulin and IGF-I binding in the retina is four to six times greater than in PE. Insulin and IGF-I binding in the retina and PE exhibit independent developmental regulation. In the retina, the number of binding sites decreases by approximately 50% between embryonic day 10 and 2 weeks post-hatching. In the PE, binding decreases slightly between embryonic day 10 and 14 and then, in the 2-week post-hatched chick, increases threefold. Insulin receptor binding subunits in the retina and brain are similar in that both are neuraminidase insensitive and have apparent molecular weights of 116 kD. In contrast, binding subunits in the PE and liver have higher molecular weights (about 126 kD), and are sensitive to neuraminidase. At the embryonic stages examined, the levels of retinal insulin and IGF-I binding exceed those of the brain by five to 13-fold. Taken together, these data suggest that the retina is a major target of insulin and IGF-I and that the binding of these growth factors is developmentally regulated.


Science | 1974

Guanylate Cyclase: Inhibition by Light in Retinal Photoreceptors

Richard E. Bensinger; R. Theodore Fletcher; Gerald J. Chader

Guanylate cyclase activity of retinal rod outer segments was measured by an assay procedure that minimizes the technical problems caused by the high activity of cyclic nucleotide phosphodiesterase in neural tissue. Cyclase activity in rods is significantly higher than in brain. Moreover, activity is two-fold higher in dark-adapted rods than in light-bleached rods, a sensitivity that is lost when the preparation is treated with detergent.


Experimental Eye Research | 1987

Retinal insulin receptors. 2. Characterization and insulininduced tyrosine kinase activity in bovine retinal rod outer segments

Robert J. Waldbillig; R. Theodore Fletcher; Gerald J. Chader; Sankaran Rajagopalan; Merlyn M. Rodrigues; Derek LeRoith

Bovine retinal rod outer segments (ROS) possess specific, high-affinity receptors for insulin. These receptors exhibit an insulin-stimulatable tyrosine-specific activity that is capable of phosphorylating the receptors own beta-subunit and exogenous substrate. ROS insulin receptors exhibit heterogeneity in the apparent molecular weight of the receptors alpha-subunit. In this regard, insulin receptors from this single cell type resemble insulin receptors obtained from whole retina, but are unlike receptors from brain and liver.


Experimental Eye Research | 1987

Retinal insulin receptors. 1. Structural heterogeneity and functional characterization

Robert J. Waldbillig; R. Theodore Fletcher; Gerald J. Chader; Sankaran Rajagopalan; Merlyn M. Rodrigues; Derek LeRoith

Neural cells of the bovine retina contain specific, high-affinity receptors for insulin. When solubilized and wheat-germ purified, these receptors exhibit a kinase activity that is capable of phosphorylating the receptors beta-subunit (autophosphorylation) and a tyrosine-containing exogenous substrate, poly (Glu, Tyr) 4:1. Studies of the structure of retinal insulin receptors revealed the existence of two insulin receptor subpopulations. For these populations, the apparent molecular weights of the alpha-subunit were 120- and 133 kDa. This structural heterogeneity does not appear to be related to the presence of vascular contamination and stands in contrast to the brain and liver where a single alpha-subunit type was found (120 kDa for brain and 133 kDa for liver). In addition to being distinguishable by their molecular weights, the two populations of retinal insulin receptors could be distinguished in terms of (a) their solubility in Triton X-100, (b) glycosylation, and (c) recognition by anti-insulin receptor antibody. Despite these structural differences, the two populations of retinal insulin receptors appear to have similar insulin binding affinities.


Biochemical and Biophysical Research Communications | 1992

Expression of guanylate cyclase-A mRNA in the rat retina: Detection using polymerase chain reaction

R. Krishnan Kutty; R. Theodore Fletcher; Gerald J. Chader; Gopal Krishna

A technique based on RNA-PCR was successfully employed for the detection of guanylate cyclase-A (GC-A) mRNA in the rat retina. Three sets of primers designed from the published cDNA sequence of rat brain guanylate cyclase-A (GC-A) produced amplification products of expected sizes from the retina as well as brain. Analysis of retinal PCR products yielded a 970 bp sequence, which showed 100% homology to the cDNA sequence of GC-A (2343-3312 bp region). Northern blot analysis was not very sensitive for the detection of GC-A mRNA in the retina. The results indicate that the mRNA for GC-A (or a closely related form) is probably expressed in the retina, but at a lower level than that found in the brain.


Journal of Neurochemistry | 1986

Genetic expression of cyclic GMP phosphodiesterase activity defines abnormal photoreceptor differentiation in neurological mutants of inherited retinal degeneration.

R. Theodore Fletcher; Somes Sanyal; Gopal Krishna; Gustavo D. Aguirre; Gerald J. Chader

Abstract: We have examined cyclic GMP concentrations, guanylate cyclase activities, and cyclic GMP phosphodiesterase (PDE) activities in developing retinas of congenic mice with different allelic combinations at the retinal degeneration (rd) and retinal degeneration slow (rds) loci. Although guanylate cyclase activities were found to be uniformly low in the mutant retinas, striking differences in PDE activity and cyclic GMP levels were observed in retinas of the various genotypes. Homozygous rds mice, which lack receptor outer segments, showed reduced retinal PDE activity and cyclic GMP concentration in comparison to normal animals. In heterozygous rds/+ mice with abnormal outer segments, the levels were intermediate. In retinas of homozygous rd mice, PDE activity was lower than in rds retinas and cyclic GMP levels were much higher. In mice homozygous for both rd and rds genes, retinal PDE activities were even lower than in single homozygous rd mice; the cyclic GMP level reached the same high value as in the rd animals, persisted for a longer time at this high level, and did not correlate with the rate of photoreceptor cell loss. Thus, a marked variation in PDE activity appears to be the major manifestation of abnormal outer segment differentiation and eventual degeneration of photoreceptor cells in these neurological mutants. An increased cyclic GMP level seems to be an essential corollary in the expression of the rd gene even in the absence of outer segments, but it appears unlikely that an abnormally high nucleotide level in itself causes photoreceptor cell death.

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Gerald J. Chader

University of Southern California

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Merlyn M. Rodrigues

National Institutes of Health

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Ling Lee

National Institutes of Health

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Barbara Wiggert

National Institutes of Health

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Robert J. Waldbillig

National Institutes of Health

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David S. Bardenstein

Case Western Reserve University

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Derek LeRoith

Icahn School of Medicine at Mount Sinai

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Gopal Krishna

National Institutes of Health

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