Photoreceptors in whirler mice show defective transducin translocation and are susceptible to short-term light/dark changes-induced degeneration

Tian, Mei; Wang, Weimin; Delimont, Duane; Cheung, Linda; Zallocchi, Marisa; Cosgrove, Dominic; Peng, Yuandong

doi:10.1016/j.exer.2013.10.021

Cited by 20 publications

(17 citation statements)

References 47 publications

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“…Originally, the USH2 complex at the periciliary membrane complex was proposed to participate in protein trafficking through the connecting cilium [107], but no clear evidence demonstrates any defects in protein trafficking between the inner and outer segment in Ush2a −/− and Whrn neo/neo photoreceptors [106, 116]. Interestingly, using Whrn wi/wi mice, which do not develop spontaneous retinal degeneration [106], Tian et al demonstrated a defect in light-induced transducin translocation from photoreceptor outer to inner segment and light-induced retinal degeneration [160]. The molecular mechanisms underlying these phenotypes in Whrn wi/wi mice need to be further elucidated.…”

Section: Functional Studies Of Ush Gene Productsmentioning

confidence: 99%

“…Further, cadherin 23, harmonin and clarin-1 proteins of various species show significantly different retinal cellular and subcellular patterns [97, 99, 112, 114, 115, 118, 119]. A third hypothesis is that light illumination is necessary to induce retinal degeneration in USH mouse models [153, 160], although the underlying mechanism is unclear. Recently, zebrafish models carrying USH gene mutations have emerged to exhibit early retinal degeneration phenotypes, such as myo7aa ty229d/ty229d and ush1c fh293/fh293 zebrafish [115, 151], indicating that zebrafish models could be useful for understanding functions of USH genes in the retina and testing potential treatments.…”

Section: Current Gaps In Understanding and Treating Ushmentioning

confidence: 99%

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Usher syndrome: Hearing loss, retinal degeneration and associated abnormalities

Mathur

Yang

2015

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

278

301

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Usher syndrome (USH), clinically and genetically heterogeneous, is the leading genetic cause of combined hearing and vision loss. USH is classified into three types, based on the hearing and vestibular symptoms observed in patients. Sixteen loci have been reported to be involved in the occurrence of USH and atypical USH. Among them, twelve have been identified as causative genes and one as a modifier gene. Studies on the proteins encoded by these USH genes suggest that USH proteins interact among one another and function in multiprotein complexes in vivo. Although their exact functions remain enigmatic in the retina, USH proteins are required for the development, maintenance and function of hair bundles, which are the primary mechanosensitive structure of inner ear hair cells. Despite the unavailability of a cure, progress has been made to develop effective treatments for this disease. In this review, we focus on the most recent discoveries in the field with an emphasis on USH genes, protein complexes and functions in various tissues as well as progress toward therapeutic development for USH.

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Section: Functional Studies Of Ush Gene Productsmentioning

confidence: 99%

Section: Current Gaps In Understanding and Treating Ushmentioning

confidence: 99%

Usher syndrome: Hearing loss, retinal degeneration and associated abnormalities

Mathur

Yang

2015

Biochimica et Biophysica Acta (BBA) - Molecular Basis of Diseas

278

301

View full text Add to dashboard Cite

show abstract

“…Dark-rearing has also been demonstrated to delay PR degeneration in Slc6a6 tm1Dhau (10% loss vs. 90% loss in normal vivarium lighting at three weeks of age) [473] or have no effect in C57BL/6-Mitf mi-vit /J homozygotes [474]. In some situations, light may actually trigger the disease phenotype, as is the case in Sag knockout mice [198,199], with three Class B1 Rhodopsin missense mutations, Tvrm1 and Tvrm4 [157] or Tvrm144 [18], and in null mutation models of Rdh12 [475], Asic2 [476], Myo7a [477], Whrn [478], or Akt2 [479]. Sag mutants must be reared in the dark to observe any PR cells.…”

Section: Effects Of Environment On Pr Degenerationmentioning

confidence: 99%

Mouse Models of Inherited Retinal Degeneration with Photoreceptor Cell Loss

Collin

Gogna

Chang

et al. 2020

Cells

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Inherited retinal degeneration (RD) leads to the impairment or loss of vision in millions of individuals worldwide, most frequently due to the loss of photoreceptor (PR) cells. Animal models, particularly the laboratory mouse, have been used to understand the pathogenic mechanisms that underlie PR cell loss and to explore therapies that may prevent, delay, or reverse RD. Here, we reviewed entries in the Mouse Genome Informatics and PubMed databases to compile a comprehensive list of monogenic mouse models in which PR cell loss is demonstrated. The progression of PR cell loss with postnatal age was documented in mutant alleles of genes grouped by biological function. As anticipated, a wide range in the onset and rate of cell loss was observed among the reported models. The analysis underscored relationships between RD genes and ciliary function, transcription-coupled DNA damage repair, and cellular chloride homeostasis. Comparing the mouse gene list to human RD genes identified in the RetNet database revealed that mouse models are available for 40% of the known human diseases, suggesting opportunities for future research. This work may provide insight into the molecular players and pathways through which PR degenerative disease occurs and may be useful for planning translational studies.

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“…For example, transgenic mice expressing a mutant form of the α‐subunit of transducin (Tα), in which Tα acylation and localization to the outer segment are inhibited, show a decreased light sensitivity of rod photoreceptors (Kerov et al , ). In contrast, mouse lines modeling Usher syndrome, shaker1 and whirler , exhibit defective Tα translocation to the inner part and a decreased threshold of light‐triggered photoreceptor degeneration (Peng et al , ; Tian et al , ). Furthermore, additional lipid modification by an amino acid substitution partially blocks light‐induced Tα translocation from the outer segment to the inner part, leading to photoreceptor cell death (Kerov & Artemyev, ; Majumder et al , ).…”

Section: Introductionmentioning

confidence: 99%

Cul3‐Klhl18 ubiquitin ligase modulates rod transducin translocation during light‐dark adaptation

et al. 2019

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Adaptation is a general feature of sensory systems. In rod photoreceptors, light‐dependent transducin translocation and Ca2+ homeostasis are involved in light/dark adaptation and prevention of cell damage by light. However, the underlying regulatory mechanisms remain unclear. Here, we identify mammalian Cul3‐Klhl18 ubiquitin ligase as a transducin translocation modulator during light/dark adaptation. Under dark conditions, Klhl18−/− mice exhibited decreased rod light responses and subcellular localization of the transducin α‐subunit (Tα), similar to that observed in light‐adapted Klhl18+/+ mice. Cul3‐Klhl18 promoted ubiquitination and degradation of Unc119, a rod Tα‐interacting protein. Unc119 overexpression phenocopied Tα mislocalization observed in Klhl18−/− mice. Klhl18 weakly recognized casein kinase‐2‐phosphorylated Unc119 protein, which is dephosphorylated by Ca2+‐dependent phosphatase calcineurin. Calcineurin inhibition increased Unc119 expression and Tα mislocalization in rods. These results suggest that Cul3‐Klhl18 modulates rod Tα translocation during light/dark adaptation through Unc119 ubiquitination, which is affected by phosphorylation. Notably, inactivation of the Cul3‐Klhl18 ligase and calcineurin inhibitors FK506 and cyclosporine A that are known immunosuppressant drugs repressed light‐induced photoreceptor damage, suggesting potential therapeutic targets.

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Photoreceptors in whirler mice show defective transducin translocation and are susceptible to short-term light/dark changes-induced degeneration

Cited by 20 publications

References 47 publications

Usher syndrome: Hearing loss, retinal degeneration and associated abnormalities

Usher syndrome: Hearing loss, retinal degeneration and associated abnormalities

Mouse Models of Inherited Retinal Degeneration with Photoreceptor Cell Loss

Cul3‐Klhl18 ubiquitin ligase modulates rod transducin translocation during light‐dark adaptation

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