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Date

2015-05-26

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Publisher

PLos One
Creative Commons
Except where otherwise noted, this item's license is described as Attribution 3.0 United States

Rod-cone dystrophy, also known as retinitis pigmentosa (RP), is the most common inherited degenerative photoreceptor disease, for which no therapy is currently available. The P23H rat is one of the most commonly used autosomal dominant RP models. It has been created by incorporation of a mutated mouse rhodopsin (Rho) transgene in the wild-type (WT) Sprague Dawley rat. Detailed genetic characterization of this transgenic animal has however never been fully reported. Here we filled this knowledge gap on P23H Line 1 rat (P23H-1) and provide additional phenotypic information applying non-invasive and state-of-the-art in vivo techniques that are relevant for preclinical therapeutic evaluations. Transgene sequence was analyzed by Sanger sequencing. Using quantitative PCR, transgene copy number was calculated and its expression measured in retinal tissue. Full field electroretinography (ERG) and spectral domain optical coherence tomography (SD-OCT) were performed at 1-, 2-, 3- and 6-months of age. Sanger sequencing revealed that P23H-1 rat carries the mutated mouse genomic Rho sequence from the promoter to the 3’ UTR. Transgene copy numbers were estimated at 9 and 18 copies in the hemizygous and homozygous rats respectively. In 1-month-old hemizygous P23H-1 rats, transgene expression represented 43% of all Rho expressed alleles. ERG showed a progressive rod-cone dysfunction peaking at 6 months-of-age. SD-OCT confirmed a progressive thinning of the photoreceptor cell layer leading to the disappearance of the outer retina by 6 months with additional morphological changes in the inner retinal cell layers in hemizygous P23H-1 rats. These results provide precise genotypic information of the P23H-1 rat with additional phenotypic characterization that will serve basis for therapeutic interventions, especially for those aiming at gene editing.

Description

The authors are grateful to Manuel Simonutti, Julie Dégardin, Jennifer Da Silva, Samantha Beck and Caroline Carvalho for their valuable help in phenotyping (platform of Institut de la Vision) and to Isabelle Renault, Léa Biedermann and André Tiffoche for animal care (platform of Institut de la Vision). The authors thank Stéphane Fouquet for his support in developing a custom-made Image J macro to measure thickness of retinal layers.This work was supported by Fondation Valentin Hauy (IA, EO), Retina France (IA, EO), e-rare RHORCOD (IA), Fondation de l’Oeil—Fondation de France (IA), Foundation Voir et Entendre (CZ), Foundation Fighting Blindness (FFB) (CD-CL-0808-0466-CHNO) (IA), and the FFB center grant (CD-CL-0808-0466-CHNO), Ville de Paris and Region Ile de France, Labex Lifesenses (reference ANR-10-LABX-65) supported by French state funds managed by the ANR within the Investissements d’Avenir programme (ANR-11-IDEX-0004-0), the Regional Council of Ile de France (I09–1727/R) (EO), the National Institute of Health grants EY10609 (MIN), EY001919 (MML) and EY006842 (MML) and the Foundation Fighting Blindness (MIN and MML).

Keywords

Photoreceptors,3' UTR,Mutation,Retina,Mammalian genomics,Polymerase chain reaction,Retinitis pigmentosa,Mouse models

Citation

Orhan E, Dalkara D, Neuillé M, Lechauve C, Michiels C, Picaud S, et al. (2015) Genotypic and Phenotypic Characterization of P23H Line 1 Rat Model. PLoS ONE 10(5): e0127319. doi:10.1371/journal.pone.0127319

Related file

http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0127319

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Sponsorship