Mutations of the Opsin Gene (Y102H and I307N) Lead to Light-induced Degeneration of Photoreceptors and Constitutive Activation of Phototransduction in Mice

Budzynski, Ewa; Gross, Alecia K.; McAlear, Suzanne D.; Peachey, Neal S.; Shukla, Meera; He, Feng; Edwards, Malia M.; Jung, Won Seok; Hicks, Wanda L.; Wensel, Theodore G.; Naggert, Jürgen Κ.; Nishina, Patsy M.

doi:10.1074/jbc.m110.112409

Cited by 35 publications

(80 citation statements)

References 47 publications

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“…However, while experimental light-induced damage in WT rodents is typically triggered by exposure to high intensity (≥ 1,100 lux) green or full spectrum white light (≥ 3,000 lux) for periods ranging from hours to days,(47–50) there is evidence for specific RHO mutations (P23H, S344ter, T17M, Y102H, I307N, T4R) conferring an increased sensitivity to light (for review see SI Table S1). (19, 21, 22, 24) Only few studies have investigated in these models of RHO -ADRP the effect of short duration light exposures. In the hT17M transgenic mouse, 2.5 minutes of illumination with 5,000 lux of white light triggers acute photoreceptor death, while limited sensitivity to a 2-fold higher intensity is found in a P23H mutant line.…”

Section: Discussionmentioning

confidence: 99%

“…(12) In support of this hypothesis are a limited number of case reports of RHO -ADRP patients with an occupational history of exposure to bright illumination and the occurrence of sectoral/altitudinal disease. (13, 14) Furthermore, vulnerability to light has been demonstrated in several animal models of RHO -ADRP including: transgenic X. laevis expressing human P23H, T4K, T17M, N2S/N15S RHO mutations; (15–17) mice with P23H, (18) T17M, (19, 20) Y102H, (21) I307N (21) mutations; the P23H, (22–24) and S334ter (23) rats; and the T4R dog (25). Within this group of animal models, there is a spectrum of sensitivity to light, with, at one extreme, the T17M RHO mouse and the T4R RHO dog.…”

Section: Introductionmentioning

confidence: 99%

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Assessment of visual function and retinal structure following acute light exposure in the light sensitive T4R rhodopsin mutant dog

Iwabe

Ying

Aguirre

et al. 2016

Experimental Eye Research

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The effect of acute exposure to various intensities of white light on visual behavior and retinal structure was evaluated in the T4R RHO dog, a naturally-occurring model of autosomal dominant retinitis pigmentosa due to a mutation in the Rhodopsin gene. A total of 14 dogs (ages: 4–5.5 months) were used in this study: 3 homozygous mutant RHOT4R/T4R, 8 heterozygous mutant RHOT4R/+, and 3 normal wild-type (WT) dogs. Following overnight dark adaptation, the left eyes were acutely exposed to bright white light with a monocular Ganzfeld dome, while the contralateral right eye was shielded. Each of the 3 homozygous (RHOT4R/T4R) mutant dogs had a single unilateral light exposure (LE) to a different (low, moderate, and high) dose of white light (corneal irradiance/illuminance: 0.1 mW/cm2, 170 lux; 0.5 mW/cm2, 820 lux; or 1 mW/cm2, 1590 lux) for 1min. All 8 heterozygous (RHOT4R/+) mutant dogs were exposed once to the same moderate dose of light. The 3 WT dogs had their left eyes exposed 1, 2, or 3 times to the same highest dose of light. Visual function prior to LE and at 2 weeks and 33 weeks after exposure was objectively assessed in the RHOT4R/T4R and WT dogs by using an obstacle-avoidance course. Transit time through the obstacle course was measured under different scotopic to photopic ambient illuminations. Morphological retinal changes were evaluated by non-invasive in vivo cSLO/sdOCT imaging and histology before and at several time-points (2–36 weeks) after light exposure. The analysis of the transit time through the obstacle course showed that no differences were observed in any of mutant or WT dogs at 2 weeks and 33 weeks post LE. The RHOT4R/T4R retina exposed to the lowest dose of white light showed no obvious changes in ONL thickness at 2 weeks, but mild decrease was noted 36 weeks after LE. The RHOT4R/T4R retina that received a moderate dose (showed an obvious decrease in ONL thickness along the superior and temporal meridians at 2 weeks post LE with more severe damage at 36 weeks post LE in all four meridians. The RHOT4R/T4R retina exposed to the high dose showed at 2 weeks after LE extensive ONL damage in all four meridians. This light intensity did not cause any retinal damage in WT dogs even after repeated (up to 3) LE. Analysis of ONL thickness in heterozygous mutant dogs exposed to the moderate dose of light confirmed the increased sensitivity to light damage of the superior/tapetal retina, and the occurrence of an ongoing cell death process several weeks after the acute LE. In conclusion, a short single exposure to a dose of white light that is not retinotoxic in WT dogs causes in the T4R RHO retina an acute loss of ONL in the central to mid peripheral region that keeps progressing over the course of several weeks. However, this severe retinal damage does not affect visual behavior presumably because of islands of surviving photoreceptors found in the area centralis including the newly discovered canine fovea-like area, and the lack of damage to peripheral photoreceptors.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Assessment of visual function and retinal structure following acute light exposure in the light sensitive T4R rhodopsin mutant dog

Iwabe

Ying

Aguirre

et al. 2016

Experimental Eye Research

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“…It is known that mutated rhodopsin molecules might trigger apoptosis via accumulation in the inner segments and stress of the endoplasmic reticulum (Mendes et al, 2010), the site of ceramide synthesis. Tvrm4 mice, first described by the laboratory of P. Nishina, at Jackson Laboratories, portray severe mutations of the rhodopsin C-terminus resulting in aggressive degeneration phenotypes, to which rhodopsin constitutiveactivation is thought to contribute (Budzynski et al, 2010) (Fig. 8).…”

Section: Targeting the Sphingolipid Pathway In Rpmentioning

confidence: 99%

Pharmacological approaches to retinitis pigmentosa: A laboratory perspective

Guadagni

Novelli

Piano

et al. 2015

Progress in Retinal and Eye Research

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“…These half-time values are in good agreement with published results of 8.2 Ϯ 0.5 minutes for bovine rod disc membranes 32 and for purified mouse rhodopsin. 52 The time courses of meta III formation in wild-type and Gt␥-KO RDM are shown in Figure 3B. The data were fitted with single exponential functions that yielded time constants of meta III formation of 10.1 Ϯ 0.6 minutes and 9.5 Ϯ 0.7 minutes for wild-type and Gt␥-KO RDM, correspondingly.…”

Section: Decay Of Meta II and Formation Of Meta Iii In Wild-type And mentioning

confidence: 99%

Signaling States of Rhodopsin in Rod Disk Membranes Lacking Transducin βγ-Complex

Lomonosova

Kolesnikov

Kefalov

et al. 2012

Invest. Ophthalmol. Vis. Sci.

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Mutations of the Opsin Gene (Y102H and I307N) Lead to Light-induced Degeneration of Photoreceptors and Constitutive Activation of Phototransduction in Mice

Cited by 35 publications

References 47 publications

Assessment of visual function and retinal structure following acute light exposure in the light sensitive T4R rhodopsin mutant dog

Assessment of visual function and retinal structure following acute light exposure in the light sensitive T4R rhodopsin mutant dog

Pharmacological approaches to retinitis pigmentosa: A laboratory perspective

Signaling States of Rhodopsin in Rod Disk Membranes Lacking Transducin βγ-Complex

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