Search results for "Gene therapy of the human retina"

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Disruption of the retinitis pigmentosa 28 gene Fam161a in mice affects photoreceptor ciliary structure and leads to progressive retinal degeneration.

2014

Mutations in the FAM161A gene were previously identified as the cause for autosomal-recessive retinitis pigmentosa 28. To study the effects of Fam161a dysfunction in vivo, we generated gene-trapped Fam161a(GT/GT) mice with a disruption of its C-terminal domain essential for protein-protein interactions. We confirmed the absence of the full-length Fam161a protein in the retina of Fam161a(GT/GT) mice using western blots and showed weak expression of a truncated Fam161a protein by immunohistochemistry. Histological analyses demonstrated that photoreceptor segments were disorganized in young Fam161a(GT/GT) mice and that the outer retina was completely lost at 6 months of age. Reactive microglia…

Retinal degenerationMaleOpsinGenotypeVision DisordersAction PotentialsGene ExpressionMice TransgenicRetinal Pigment EpitheliumBiologyRetinaMiceRetinitis pigmentosaGeneticsmedicineAnimalsHumansPhotoreceptor CellsPeripherin 2Eye ProteinsMolecular BiologyGenetics (clinical)Retinal regenerationRetinaGene therapy of the human retinaCiliumRetinal DegenerationGeneral Medicinemedicine.diseaseeye diseasesCell biologyProtein Transportmedicine.anatomical_structureGenetic LociGene TargetingMutationFemalesense organsMicrogliaCarrier ProteinsProtein BindingHuman molecular genetics
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Suppression and Replacement Gene Therapy for Autosomal Dominant Disease in a Murine Model of Dominant Retinitis Pigmentosa

2011

For dominantly inherited disorders development of gene therapies, targeting the primary genetic lesion has been impeded by mutational heterogeneity. An example is rhodopsin-linked autosomal dominant retinitis pigmentosa with over 150 mutations in the rhodopsin gene. Validation of a mutation-independent suppression and replacement gene therapy for this disorder has been undertaken. The therapy provides a means of correcting the genetic defect in a mutation-independent manner thereby circumventing the mutational diversity. Separate adeno-associated virus (AAV) vectors were used to deliver an RNA interference (RNAi)-based rhodopsin suppressor and a codon-modified rhodopsin replacement gene res…

genetic structuresGenetic enhancementMice TransgenicPolymerase Chain ReactionPhotoreceptor cellMiceRNA interferenceRetinitis pigmentosaDrug DiscoverymedicineGeneticsElectroretinographyAnimalsGeneMolecular BiologyPharmacologyGene therapy of the human retinabiologyAutosomal dominant traitGenetic Therapymedicine.diseaseMolecular biologyDisease Models Animalmedicine.anatomical_structureRhodopsinbiology.proteinMolecular MedicineOriginal Articlesense organsRetinitis PigmentosaMolecular Therapy
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