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2. Noninvasive, in vivo assessment of mouse retinal structure using optical coherence tomography.

Author

Fischer, M.D., Huber, G., Beck, S.C., Tanimoto, N., Muehlfriedel, R., Fahl, E., Grimm, C., Wenzel, A., Reme, C.E., Van de Pavert, S.A., Wijnholds, J., Pacal, M., Bremner, R., Seeliger, M.W., Fischer, M.D., Huber, G., Beck, S.C., Tanimoto, N., Muehlfriedel, R., Fahl, E., Grimm, C., Wenzel, A., Reme, C.E., Van de Pavert, S.A., Wijnholds, J., Pacal, M., Bremner, R., and Seeliger, M.W.

Published
2009

4. In conditions of limited chromophore supply rods entrap 11-cis-retinal leading to loss of cone function and cell death

Author

Samardzija, M., primary, Tanimoto, N., additional, Kostic, C., additional, Beck, S., additional, Oberhauser, V., additional, Joly, S., additional, Thiersch, M., additional, Fahl, E., additional, Drumea-Mirancea, M., additional, Arsenijevic, Y., additional, von Lintig, J., additional, Wenzel, A., additional, Seeliger, M. W., additional, and Grimm, C., additional

Published
2012
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5. In conditions of limited chromophore supply rods entrap 11-cis-retinal leading to loss of cone function and cell death

Author

Samardzija, M., primary, Tanimoto, N., additional, Kostic, C., additional, Beck, S., additional, Oberhauser, V., additional, Joly, S., additional, Thiersch, M., additional, Fahl, E., additional, Arsenijevic, Y., additional, von Lintig, J., additional, Wenzel, A., additional, Seeliger, M. W., additional, and Grimm, C., additional

Published
2010
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6. In conditions of limited chromophore supply rods entrap 11-cis-retinal leading to loss of cone function and cell death

Author

Samardzija, M., primary, Tanimoto, N., additional, Kostic, C., additional, Beck, S., additional, Oberhauser, V., additional, Joly, S., additional, Thiersch, M., additional, Fahl, E., additional, Arsenijevic, Y., additional, von Lintig, J., additional, Wenzel, A., additional, Seeliger, M. W., additional, and Grimm, C., additional

Published
2009
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9. Role of IFN-gamma and IL-6 in a protective immune response to Yersinia enterocolitica in mice

Author

Autenrieth Ingo B, Bonin Michael, Müller Steffen, Warnke Philipp, Fahl Edda, Matteoli Gianluca, and Bohn Erwin

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Yersinia outer protein (Yop) H is a secreted virulence factor of Yersinia enterocolitica (Ye), which inhibits phagocytosis of Ye and contributes to the virulence of Ye in mice. The aim of this study was to address whether and how YopH affects the innate immune response to Ye in mice. Results For this purpose, mice were infected with wild type Ye (pYV+) or a YopH-deficient Ye mutant strain (ΔyopH). CD11b+ cells were isolated from the infected spleen and subjected to gene expression analysis using microarrays. Despite the attenuation of ΔyopH in vivo, by variation of infection doses we were able to achieve conditions that allow comparison of gene expression in pYV+ and ΔyopH infection, using either comparable infection courses or splenic bacterial burden. Gene expression analysis provided evidence that expression levels of several immune response genes, including IFN-γ and IL-6, are high after pYV+ infection but low after sublethal ΔyopH infection. In line with these findings, infection of IFN-γR-/- and IL-6-/- mice with pYV+ or ΔyopH revealed that these cytokines are not necessarily required for control of ΔyopH, but are essential for defense against infection with the more virulent pYV+. Consistently, IFN-γ pretreatment of bone marrow derived macrophages (BMDM) strongly enhanced their ability in killing intracellular Ye bacteria. Conclusion In conclusion, this data suggests that IFN-γ-mediated effector mechanisms can partially compensate virulence exerted by YopH. These results shed new light on the protective role of IFN-γ in Ye wild type infections.

Published
2008
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11. Oxygen supply and retinal function: insights from a transgenic animal model

Author

Christian Grimm, E. Fahl, Mathias W. Seeliger, Max Gassmann, University of Zurich, Anderson, R E, and Fahl, E

Subjects
10018 Ophthalmology Clinic, Retinal degeneration, Retina, Retinal pigment epithelium, genetic structures, medicine.diagnostic_test, Outer plexiform layer, 610 Medicine & health, Retinal, Anatomy, Biology, 10081 Institute of Veterinary Physiology, medicine.disease, eye diseases, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, 1300 General Biochemistry, Genetics and Molecular Biology, Inner nuclear layer, medicine, Biophysics, 570 Life sciences, biology, sense organs, Choroid, Electroretinography
Abstract

Transportation of oxygen to the different retinal layers occurs via two major vascular systems present in the eye. The supply of the outer retina originates in the choroid (choriocapillaris) located beneath the retinal pigment epithelium (RPE). The retinal circulation supplies the inner retina and as shown by Cuthbertson and Mandel (1986), exists in three capillary beds centered on the nerve-fibre layer, the junction of inner plexiform and inner nuclear layer, and the outer plexiform layer. Alder and Cringle (1990) found that a typical PO2 profile starts at 82 mm Hg at the choroidal side of the retina. With increasing distance of the retinal layers to the choroid the PO2 value decreases to 2 mm Hg at the balance point of the two circulations and increases up to 15 mm Hg due to the retinal circulation. Retinal function, commonly measured by electroretinography (ERG), is particularly sensitive to circulatory disturbances. Tazawa and Seaman (1972) nicely demonstrated the rapid decrease and subsequent disappearance of the ERG b-wave in the extracorporeal bovine eye as a result of anoxia, whereas the a-wave was only moderately reduced. This is in line with the origin of the b-wave in the inner retina, which seems to be more sensitive to and more affected by acute anoxia. In contrast, the a-wave originating in the outer retina seems more resistant to anoxia. In vitro experiments with perfused eyes described by Niemeyer (1975) revealed a bi-directional dependency of the b-wave amplitude to changes of oxygen supply: an increased flow leads to a larger b-wave, whereas a decreased flow causes a reduction of the b-wave. The transgenic mouse line tg6 overexpresses the human erythropoietin (huEpo) gene, leading to a disease phenotype in several tissues as described by Wagner et al. (2001). An important pathophysiologic factor is the development of a hematocrit (the percentage of corpuscular elements in the blood) of about 80%

Published
2008
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12. Gene therapy restores missing cone-mediated vision in the CNGA3-/- mouse model of achromatopsia.

Author

Michalakis S, Mühlfriedel R, Tanimoto N, Krishnamoorthy V, Koch S, Fischer MD, Becirovic E, Bai L, Huber G, Beck SC, Fahl E, Büning H, Schmidt J, Zong X, Gollisch T, Biel M, and Seeliger MW

Subjects
Animals, Color Vision genetics, Dependovirus genetics, Electroretinography, HEK293 Cells, Humans, Mice, Recombinant Proteins genetics, Recovery of Function genetics, Retinal Rod Photoreceptor Cells physiology, Color Vision Defects genetics, Color Vision Defects therapy, Cyclic Nucleotide-Gated Cation Channels genetics, Genetic Therapy methods, Retinal Cone Photoreceptor Cells physiology
Published
2012
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13. A key role for cyclic nucleotide gated (CNG) channels in cGMP-related retinitis pigmentosa.

Author

Paquet-Durand F, Beck S, Michalakis S, Goldmann T, Huber G, Mühlfriedel R, Trifunović D, Fischer MD, Fahl E, Duetsch G, Becirovic E, Wolfrum U, van Veen T, Biel M, Tanimoto N, and Seeliger MW

Subjects
Animals, Calcium metabolism, Cyclic Nucleotide-Gated Cation Channels genetics, Disease Models, Animal, Female, Humans, Male, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Mice, Knockout, Nerve Tissue Proteins genetics, Retinal Rod Photoreceptor Cells metabolism, Retinitis Pigmentosa genetics, Cyclic GMP metabolism, Cyclic Nucleotide-Gated Cation Channels metabolism, Nerve Tissue Proteins metabolism, Retinitis Pigmentosa metabolism
Abstract

The rd1 natural mutant is one of the first and probably the most commonly studied mouse model for retinitis pigmentosa (RP), a severe and frequently blinding human retinal degeneration. In several decades of research, the link between the increase in photoreceptor cGMP levels and the extremely rapid cell death gave rise to a number of hypotheses. Here, we provide clear evidence that the presence of cyclic nucleotide gated (CNG) channels in the outer segment membrane is the key to rod photoreceptor loss. In Cngb1(-/-) × rd1 double mutants devoid of regular CNG channels, cGMP levels are still pathologically high, but rod photoreceptor viability and outer segment morphology are greatly improved. Importantly, cone photoreceptors, the basis for high-resolution daylight and colour vision, survived and remained functional for extended periods of time. These findings strongly support the hypothesis of deleterious calcium (Ca(2+))-influx as the cause of rapid rod cell death and highlight the importance of CNG channels in this process. Furthermore, our findings suggest that targeting rod CNG channels, rather than general Ca(2+)-channel blockade, is a most promising symptomatic approach to treat otherwise incurable forms of cGMP-related RP.

Published
2011
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14. Restoration of cone vision in the CNGA3-/- mouse model of congenital complete lack of cone photoreceptor function.

Author

Michalakis S, Mühlfriedel R, Tanimoto N, Krishnamoorthy V, Koch S, Fischer MD, Becirovic E, Bai L, Huber G, Beck SC, Fahl E, Büning H, Paquet-Durand F, Zong X, Gollisch T, Biel M, and Seeliger MW

Subjects
Animals, Cloning, Molecular, Congenital Abnormalities genetics, Dependovirus genetics, Disease Models, Animal, Genetic Vectors genetics, Humans, Mice, Mice, Knockout, Vision, Ocular genetics, Congenital Abnormalities therapy, Cyclic Nucleotide-Gated Cation Channels genetics, Genetic Therapy, Retinal Cone Photoreceptor Cells metabolism
Abstract

Congenital absence of cone photoreceptor function is associated with strongly impaired daylight vision and loss of color discrimination in human achromatopsia. Here, we introduce viral gene replacement therapy as a potential treatment for this disease in the CNGA3(-/-) mouse model. We show that such therapy can restore cone-specific visual processing in the central nervous system even if cone photoreceptors had been nonfunctional from birth. The restoration of cone vision was assessed at different stages along the visual pathway. Treated CNGA3(-/-) mice were able to generate cone photoreceptor responses and to transfer these signals to bipolar cells. In support, we found morphologically that treated cones expressed regular cyclic nucleotide-gated (CNG) channel complexes and opsins in outer segments, which previously they did not. Moreover, expression of CNGA3 normalized cyclic guanosine monophosphate (cGMP) levels in cones, delayed cone cell death and reduced the inflammatory response of Müller glia cells that is typical of retinal degenerations. Furthermore, ganglion cells from treated, but not from untreated, CNGA3(-/-) mice displayed cone-driven, light-evoked, spiking activity, indicating that signals generated in the outer retina are transmitted to the brain. Finally, we demonstrate that this newly acquired sensory information was translated into cone-mediated, vision-guided behavior.

Published
2010
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15. PARP1 gene knock-out increases resistance to retinal degeneration without affecting retinal function.

Author

Sahaboglu A, Tanimoto N, Kaur J, Sancho-Pelluz J, Huber G, Fahl E, Arango-Gonzalez B, Zrenner E, Ekström P, Löwenheim H, Seeliger M, and Paquet-Durand F

Subjects
Animals, Apoptosis, Blotting, Western, Cyclic GMP metabolism, Cyclic Nucleotide Phosphodiesterases, Type 6 antagonists & inhibitors, Cyclic Nucleotide Phosphodiesterases, Type 6 metabolism, Electroretinography, Female, Humans, In Situ Nick-End Labeling, Male, Mice, Mice, 129 Strain, Mice, Inbred C3H, Mice, Knockout, Phosphodiesterase Inhibitors pharmacology, Poly (ADP-Ribose) Polymerase-1, Poly(ADP-ribose) Polymerases genetics, Purinones pharmacology, Retina metabolism, Retina physiopathology, Retinal Degeneration genetics, Retinal Degeneration pathology, Retinitis Pigmentosa enzymology, Retinitis Pigmentosa genetics, Retinitis Pigmentosa pathology, Tomography, Optical Coherence, Photoreceptor Cells, Vertebrate metabolism, Poly(ADP-ribose) Polymerases metabolism, Retina enzymology, Retinal Degeneration enzymology
Abstract

Retinitis pigmentosa (RP) is a group of inherited neurodegenerative diseases affecting photoreceptors and causing blindness in humans. Previously, excessive activation of enzymes belonging to the poly-ADP-ribose polymerase (PARP) group was shown to be involved in photoreceptor degeneration in the human homologous rd1 mouse model for RP. Since there are at least 16 different PARP isoforms, we investigated the exact relevance of the predominant isoform - PARP1 - for photoreceptor cell death using PARP1 knock-out (KO) mice. In vivo and ex vivo morphological analysis using optic coherence tomography (OCT) and conventional histology revealed no major alterations of retinal phenotype when compared to wild-type (wt). Likewise, retinal function as assessed by electroretinography (ERG) was normal in PARP1 KO animals. We then used retinal explant cultures derived from wt, rd1, and PARP1 KO animals to test their susceptibility to chemically induced photoreceptor degeneration. Since photoreceptor degeneration in the rd1 retina is triggered by a loss-of-function in phosphodiesterase-6 (PDE6), we used selective PDE6 inhibition to emulate the rd1 situation on non-rd1 genotypes. While wt retina subjected to PDE6 inhibition showed massive photoreceptor degeneration comparable to rd1 retina, in the PARP1 KO situation, cell death was robustly reduced. Together, these findings demonstrate that PARP1 activity is in principle dispensable for normal retinal function, but is of major importance for photoreceptor degeneration under pathological conditions. Moreover, our results suggest that PARP dependent cell death or PARthanatos may play a major role in retinal degeneration and highlight the possibility to use specific PARP inhibitors for the treatment of RP.

Published
2010
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16. Study of gene-targeted mouse models of splicing factor gene Prpf31 implicated in human autosomal dominant retinitis pigmentosa (RP).

Author

Bujakowska K, Maubaret C, Chakarova CF, Tanimoto N, Beck SC, Fahl E, Humphries MM, Kenna PF, Makarov E, Makarova O, Paquet-Durand F, Ekström PA, van Veen T, Leveillard T, Humphries P, Seeliger MW, and Bhattacharya SS

Subjects
Animals, Blotting, Western, Electrophoresis, Polyacrylamide Gel, Electroretinography, Female, Gene Knock-In Techniques, Gene Knockout Techniques, Gene Targeting, Genotype, Humans, In Situ Nick-End Labeling, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Knockout, Ophthalmoscopy, Point Mutation, Retina physiopathology, Retinitis Pigmentosa physiopathology, Disease Models, Animal, Eye Proteins genetics, Genes, Dominant, Retinitis Pigmentosa genetics
Abstract

Purpose: Pre-mRNA processing factor 31 (PRPF31) is a ubiquitous protein needed for the assembly of the pre-mRNA splicing machinery. It has been shown that mutations in this gene cause autosomal dominant retinitis pigmentosa 11 (RP11), which is characterized by rod-cell degeneration. Interestingly, mutations in this ubiquitously expressed gene do not lead to phenotypes other than retinal malfunction. Furthermore, the dominant inheritance pattern has shown incomplete penetrance, which poses interesting questions about the disease mechanism of RP11., Methods: To characterize PRPF31 function in the rod cells, two animal models have been generated. One was a heterozygous knock-in mouse (Prpf31(A216P/+)) carrying a point mutation p.A216P, which has previously been identified in RP11 patients. The second was a heterozygous knockout mouse (Prpf31(+/-)). Retinal degeneration in RP11 mouse models was monitored by electroretinography and histology., Results: Generation of the mouse models is presented, as are results of ERGs and retinal morphology. No degenerative phenotype on fundus examination was found in Prpf31(A216P/+) and Prpf31(+/-) mice. Prpf31(A216P/A216P) and Prpf31(-/-) genotypes were embryonic lethal., Conclusions: The results imply that Prpf31 is necessary for survival, and there is no compensation mechanism in mouse for the lack of this splicing factor. The authors suggest that p.A216P mutation in Prpf31 does not exert a dominant negative effect and that one Prpf31 wild-type allele is sufficient for maintenance of the healthy retina in mice.

Published
2009
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17. Noninvasive, in vivo assessment of mouse retinal structure using optical coherence tomography.

Author

Fischer MD, Huber G, Beck SC, Tanimoto N, Muehlfriedel R, Fahl E, Grimm C, Wenzel A, Remé CE, van de Pavert SA, Wijnholds J, Pacal M, Bremner R, and Seeliger MW

Subjects
Animals, Basic-Leucine Zipper Transcription Factors genetics, Eye Proteins genetics, Female, Lasers, Light, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Nerve Tissue Proteins genetics, Ophthalmoscopy methods, Retinoblastoma Protein genetics, Retina metabolism, Retinal Degeneration metabolism, Tomography, Optical Coherence methods
Abstract

Background: Optical coherence tomography (OCT) is a novel method of retinal in vivo imaging. In this study, we assessed the potential of OCT to yield histology-analogue sections in mouse models of retinal degeneration., Methodology/principal Findings: We achieved to adapt a commercial 3(rd) generation OCT system to obtain and quantify high-resolution morphological sections of the mouse retina which so far required in vitro histology. OCT and histology were compared in models with developmental defects, light damage, and inherited retinal degenerations. In conditional knockout mice deficient in retinal retinoblastoma protein Rb, the gradient of Cre expression from center to periphery, leading to a gradual reduction of retinal thickness, was clearly visible and well topographically quantifiable. In Nrl knockout mice, the layer involvement in the formation of rosette-like structures was similarly clear as in histology. OCT examination of focal light damage, well demarcated by the autofluorescence pattern, revealed a practically complete loss of photoreceptors with preservation of inner retinal layers, but also more subtle changes like edema formation. In Crb1 knockout mice (a model for Leber's congenital amaurosis), retinal vessels slipping through the outer nuclear layer towards the retinal pigment epithelium (RPE) due to the lack of adhesion in the subapical region of the photoreceptor inner segments could be well identified., Conclusions/significance: We found that with the OCT we were able to detect and analyze a wide range of mouse retinal pathology, and the results compared well to histological sections. In addition, the technique allows to follow individual animals over time, thereby reducing the numbers of study animals needed, and to assess dynamic processes like edema formation. The results clearly indicate that OCT has the potential to revolutionize the future design of respective short- and long-term studies, as well as the preclinical assessment of therapeutic strategies.

Published
2009
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18. Retinal degenerative and hypoxic ischemic disease.

Author

Fulton AB, Akula JD, Mocko JA, Hansen RM, Benador IY, Beck SC, Fahl E, Seeliger MW, Moskowitz A, and Harris ME

Subjects
Animals, Disease Models, Animal, Electroretinography, Humans, Infant, Newborn, Rats, Retina physiopathology, Retinal Rod Photoreceptor Cells physiology, Retinopathy of Prematurity prevention & control, Vascular Endothelial Growth Factor A physiology, Hypoxia, Ischemia, Retinal Degeneration physiopathology, Retinal Vessels pathology, Retinopathy of Prematurity physiopathology
Abstract

A broad spectrum of retinal diseases affects both the retinal vasculature and the neural retina, including photoreceptor and postreceptor layers. The accepted clinical hallmarks of acute retinopathy of prematurity (ROP) are dilation and tortuosity of the retinal vasculature. Additionally, significant early and persistent effects on photoreceptor and postreceptor neural structures and function are demonstrated in ROP. In this paper, we focus on the results of longitudinal studies of electroretinographic (ERG) and vascular features in rats with induced retinopathies that model the gamut of human ROP, mild to severe. Two potential targets for pharmaceutical interventions emerge from the observations. The first target is immature photoreceptors because the status of the photoreceptors at an early age predicts later vascular outcome; this approach is appealing as it holds promise to prevent ROP. The second target is the interplay of the neural and vascular retinal networks, which develop cooperatively. Beneficial pharmaceutical interventions may be measured in improved visual outcome as well as lessening of the vascular abnormalities.

Published
2009
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19. Vision tests in the mouse: Functional phenotyping with electroretinography.

Author

Tanimoto N, Muehlfriedel RL, Fischer MD, Fahl E, Humphries P, Biel M, and Seeliger MW

Subjects
Animals, Flicker Fusion, Mice, Mice, Inbred C57BL, Electroretinography methods, Vision Tests methods
Abstract

Electroretinography (ERG) is an established diagnostic technique in clinical ophthalmology and provides objective information about retinal function. This technique is also applied in basic research, where animal models of hereditary retinopathies have significantly contributed to our understanding of the composition of ERG responses in general and how retinal degenerative pathologies alter retinal function specifically. Indeed, electrophysiologic assessment of transgenic mice, which are genetically engineered to mimic human mutations that lead to retinal diseases, can be well compared with clinical data. Furthermore, limitations on examinations (e.g. length of measurement, range of light intensity) are much less of a concern when assessing mice compared to human patients. In order to measure and analyze retinal responses properly, several important aspects have to be considered. This paper focuses on these aspects, and shows exemplary ERG data which were obtained from normal wild-type mice and from transgenic mice with specific functional properties, namely Rho-/- (rod opsin knockout, cone function only), and Cnga3-/- (cone CNG channel deficient, rod function only) to illustrate rod and cone system contributions to ERG responses.

Published
2009
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21. In vivo confocal imaging of the retina in animal models using scanning laser ophthalmoscopy.

Author

Seeliger MW, Beck SC, Pereyra-Muñoz N, Dangel S, Tsai JY, Luhmann UF, van de Pavert SA, Wijnholds J, Samardzija M, Wenzel A, Zrenner E, Narfström K, Fahl E, Tanimoto N, Acar N, and Tonagel F

Subjects
Animals, Fluorescein Angiography, Indocyanine Green, Mice, Microscopy, Confocal instrumentation, Microscopy, Fluorescence instrumentation, Models, Animal, Lasers, Microscopy, Confocal methods, Microscopy, Fluorescence methods, Ophthalmoscopy methods, Retina pathology, Retinal Diseases pathology
Abstract

Scanning-laser ophthalmoscopy is a technique for confocal imaging of the eye in vivo. The use of lasers of different wavelengths allows to obtain information about specific tissues and layers due to their reflection and transmission characteristics. In addition, fluorescent dyes excitable in the blue and infrared range offer a unique access to the vascular structures associated with each layer. In animal models, a further enhancement in specificity can be obtained by GFP expression under control of tissue-specific promotors. Important fields of application are studies in retinal degenerations and the follow-up of therapeutic intervention.

Published
2005
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22. The retinal G protein-coupled receptor (RGR) enhances isomerohydrolase activity independent of light.

Author

Wenzel A, Oberhauser V, Pugh EN Jr, Lamb TD, Grimm C, Samardzija M, Fahl E, Seeliger MW, Remé CE, and von Lintig J

Subjects
Animals, Carrier Proteins, Eye Proteins analysis, Eye Proteins physiology, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Photoreceptor Cells physiology, Regeneration, Stereoisomerism, Light, Receptors, G-Protein-Coupled physiology, Retina physiology, Retinaldehyde chemistry, cis-trans-Isomerases metabolism
Abstract

Rod and cone visual pigments use 11-cis-retinal, a vitamin A derivative, as their chromophore. Light isomerizes 11-cis- into all-trans-retinal, triggering a conformational transition of the opsin molecule that initiates phototransduction. After bleaching all-trans-retinal leaves the opsin, and light sensitivity must be restored by regeneration of 11-cis-retinal. Under bright light conditions the retinal G protein-coupled receptor (RGR) was reported to support this regeneration by acting as a photoisomerase in a proposed photic visual cycle. We analyzed the contribution of RGR to rhodopsin regeneration under different light regimes and show that regeneration, during light exposure and in darkness, is slowed about 3-fold in Rgr(-/-) mice. These findings are not in line with the proposed function of RGR as a photoisomerase. Instead, RGR, independent of light, accelerates the conversion of retinyl esters to 11-cis-retinal by positively modulating isomerohydrolase activity, a key step in the "classical" visual cycle. Furthermore, we find that light accelerates rhodopsin regeneration, independent of RGR.

Published
2005
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