Pharmacological Modulation of Photoreceptor Outer Segment Degradation in a Human iPS Cell Model of Inherited Macular Degeneration

Singh, Ruchira; Kuai, David; Guziewicz, Karina E.; Meyer, Jackie; Wilson, Molly M.; Lu, Jianfeng; Smith, Molly A.; Clark, Eric M.; Verhoeven, Amelia D.; Aguirre, Gustavo D.; Gamm, David M.

doi:10.1038/mt.2015.141

Cited by 57 publications

(69 citation statements)

References 83 publications

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“…canine multifocal retinopathy, cmr ), which is caused by the same genetic defects as human bestrophinopathies, and captures the full range of clinical manifestations observed in patients (Guziewicz et al, 2007; Zangerl et al, 2010; Guziewicz et al, 2011; Beltran et al, 2014; Singh et al, 2015). To date, cBest retinopathy affects thirteen dog breeds worldwide and results from any of the three distinct mutations identified in the canine BEST1 (c BEST1 ) gene.…”

Section: Canine Models Of Human Best1-related Dystrophiesmentioning

confidence: 99%

“…canine multifocal retinopathy, cmr ) (Guziewicz et al, 2007; Zangerl et al, 2010; Guziewicz et al, 2011; Beltran et al, 2014; Singh et al, 2015) to characterize lipofuscin fluorophores in the cBest1 mutant RPE, and explore factors leading to the formation of subretinal lesions in BEST1 -associated maculopathies. This study highlights matching spectral profiles of the native lipofuscin autofluorescence between human and dog bestrophinopathies, as well as robust biochemical and structural alterations at the RPE-photoreceptor interface that trigger formation of vitelliform lesions.…”

Section: Introductionmentioning

confidence: 99%

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Bestrophinopathy: An RPE-photoreceptor interface disease

Guziewicz

Sinha

Gómez

et al. 2017

Progress in Retinal and Eye Research

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Bestrophinopathies, one of the most common forms of inherited macular degenerations, are caused by mutations in the BEST1 gene expressed in the retinal pigment epithelium (RPE). Both human and canine BEST1-linked maculopathies are characterized by abnormal accumulation of autofluorescent material within RPE cells and bilateral macular or multifocal lesions; however, the specific mechanism leading to the formation of these lesions remains unclear. We now provide an overview of the current state of knowledge on the molecular pathology of bestrophinopathies, and explore factors promoting formation of RPE-neuroretinal separations, using the first spontaneous animal model of BEST1-associated retinopathies, canine Best (cBest). Here, we characterize the nature of the autofluorescent RPE cell inclusions and report matching spectral signatures of RPE-associated fluorophores between human and canine retinae, indicating an analogous composition of endogenous RPE deposits in Best Vitelliform Macular Dystrophy (BVMD) patients and its canine disease model. This study also exposes a range of biochemical and structural abnormalities at the RPE-photoreceptor interface related to the impaired cone-associated microvillar ensheathment and compromised insoluble interphotoreceptor matrix (IPM), the major pathological culprits responsible for weakening of the RPE-neuroretina interactions, and consequently, formation of vitelliform lesions. These salient alterations detected at the RPE apical domain in cBest as well as in BVMD- and ARB-hiPSC-RPE model systems provide novel insights into the pathological mechanism of BEST1-linked disorders that will allow for development of critical outcome measures guiding therapeutic strategies for bestrophinopathies.

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Section: Canine Models Of Human Best1-related Dystrophiesmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bestrophinopathy: An RPE-photoreceptor interface disease

Guziewicz

Sinha

Gómez

et al. 2017

Progress in Retinal and Eye Research

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“…8 Regardless of etiology, maintaining proper RPE function is a major therapeutic target in these diseases, and currently pharmaceutical, genetic, and cellular approaches are being tested to this end in a variety of in vitro and in vivo models, as well as in clinical trials in humans. [9][10][11][12] Sodium iodate (SI, NaIO 3 ) is a chemical oxidizing agent that was reported to affect primarily the RPE causing subsequent damage to photoreceptors and additional retinal structures. 13 Whether or not primary damage occurs in additional retinal structures is still a matter of debate.…”

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confidence: 99%

Course of Sodium Iodate–Induced Retinal Degeneration in Albino and Pigmented Mice

Chowers

Cohen

Marks-Ohana

et al. 2017

Invest. Ophthalmol. Vis. Sci.

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PURPOSE. To characterize the course of sodium iodate (SI)-induced retinal degeneration in young adult albino and pigmented mice. (25, 50, and 100 mg/kg) were performed in 7-to 8-week-old BALB/c and C57Bl/6J mice. Retinal function and structure was assessed at baseline, 24 hours, 3 days, 1, 2, 3, and 4 weeks postinjection by optokinetic tracking response, ERG, optical coherence tomography (OCT), and histologic and immunohistochemical techniques. METHODS. Single intraperitoneal (IP) injections of SI RESULTS.The 50 mg/kg SI dosage was selected after dose ranging due to consistent retinal effects and lack of systemic toxicity. Time-dependent deterioration in retinal function and morphology was consistently observed between 1 and 4 weeks in all measured parameters. These include reduction of ERG responses, thinning of retinal layers as observed by OCT and histology, and loss of RPE nuclei. Immunohistochemistry revealed rapid RPE disorganization with loss of tight junctions and markedly reduced expression of RPE65 and rod opsin, accompanied by mislocalization of cone opsins. Earlier time points displayed variable results, including partial recovery of visual acuity at 1 week and supranormal ERG cone responses at 24 hours, suggesting possible limitations of early intervention and assessment in the SI model. CONCLUSIONS.A single IP injection of 50 mg/kg SI leads to severe RPE injury followed by vision impairment, dysfunction, and loss of photoreceptors in both BALB/c and C57Bl/6J mice. This easily induced and reproducible noninherited model may serve as a useful tool for seeking and evaluating novel therapeutic modalities for the treatment of retinal degenerations caused by primary failure of the RPE.Keywords: sodium iodate, RPE toxicity, retinal degeneration, mouse model D iseases such as AMD, Best disease, and subtypes of retinitis pigmentosa RP are major causes of visual disability. 1 In these diseases, primary dysfunction, degeneration, and loss of the RPE ultimately results in secondary death of photoreceptors, leading to visual loss. [2][3][4] Despite certain progress in the treatment of retinal degeneration, it remains an essentially irreversible process in which many patients eventually lose their sight. Animal models provide an invaluable tool for searching and testing of novel therapeutic modalities. Animals carrying natural mutations (usually in one gene) provide well-established models for inherited retinal diseases. 5,6 However, the pathogenesis of multifactorial retinal degenerations such as AMD involves complex genetic and environmental factors, leading to expression of disease at older ages. 7 The majority of geneticallyinherited animal models of ocular disease do not entirely mimic such conditions because of early disease onset and progression. 8 Regardless of etiology, maintaining proper RPE function is a major therapeutic target in these diseases, and currently pharmaceutical, genetic, and cellular approaches are being tested to this end in a variety of in vitro and in vivo models, as well as in clini...

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“…We have previously shown that canine bestrophinopathy (cBest or cmr ) serves as an important translational model for BEST1 -associated maculopathies in man, as it recapitulates all fundamental aspects of human disease, including the salient predilection of subretinal lesions to the canine macular region (Guziewicz et al 2007; Beltran et al 2014; Singh et al 2015). In this study, cBest model proved instrumental for defining the early structural alterations at the RPE-photoreceptor interface, which may explain the susceptibility of the macula to its primary detachment in BEST1 -associated maculopathies.…”

Section: 4 Discussionmentioning

confidence: 99%

“…It is important to note that these RPE projections greatly increase the apical surface area and, consequently, the transport of signaling molecules it contains, thereby enhancing the epithelial functional capacity (Bonilha et al 2004). Thus, it is very likely that most of the major hallmarks of bestrophinopathies, e.g., disrupted ion transport, impaired phagocytosis, abnormal accumulation of autofluorescent debris in the subretinal space, and finally RPE-neuroretinal detachment and formation of serous lesions (Boon et al 2009; Singh et al 2015), arise directly from the dearth of properly formed microvilli and impaired interaction/adhesiveness with OS. The report by Bonilha et al provided strong evidence that Ezrin is a major determinant in the maturation of surface differentiations of RPE, promoting morphogenesis of apical microvilli (Bonilha et al 1999).…”

Section: 4 Discussionmentioning

confidence: 99%

Underdeveloped RPE Apical Domain Underlies Lesion Formation in Canine Bestrophinopathies

Guziewicz

McTish

Dufour

et al. 2018

Retinal Degenerative Diseases

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Canine bestrophinopathy (cBest) is an important translational model for BEST1-associated maculopathies in man that recapitulates the broad spectrum of clinical and molecular disease aspects observed in patients. Both human and canine bestrophinopathies are characterized by focal to multifocal separations of the retina from the RPE. The lesions can be macular or extramacular, and the specific pathomechanism leading to formation of these lesions remains unclear. We used the naturally occurring canine BEST1 model to examine factors that underlie formation of vitelliform lesions and addressed the susceptibility of the macula to its primary detachment in BEST1-linked maculopathies.

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Pharmacological Modulation of Photoreceptor Outer Segment Degradation in a Human iPS Cell Model of Inherited Macular Degeneration

Cited by 57 publications

References 83 publications

Bestrophinopathy: An RPE-photoreceptor interface disease

Bestrophinopathy: An RPE-photoreceptor interface disease

Course of Sodium Iodate–Induced Retinal Degeneration in Albino and Pigmented Mice

Underdeveloped RPE Apical Domain Underlies Lesion Formation in Canine Bestrophinopathies

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