Gene Therapy in Retinal Dystrophies

Inherited retinal dystrophies (IRDs) are a group of clinically and genetically heterogeneous degenerative disorders. To date, mutations have been associated with IRDs in over 270 disease genes, but molecular diagnosis still remains elusive in about a third of cases. The methodologic developments in...

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Veröffentlicht in:	International journal of molecular sciences 2019-11, Vol.20 (22), p.5722
Hauptverfasser:	Ziccardi, Lucia, Cordeddu, Viviana, Gaddini, Lucia, Matteucci, Andrea, Parravano, Mariacristina, Malchiodi-Albedi, Fiorella, Varano, Monica
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal models Animals Cell division Cellular structure Degenerative diseases Disease Disease Models, Animal Eye Gene Editing Gene therapy Gene Transfer Techniques Genetic Predisposition to Disease Genetic Therapy - methods Genetic Vectors - genetics Genomes Genotype & phenotype Humans Immune privilege Immunological tolerance Immunology Light Lymphatic system Mutation Photoreceptors Phototransduction Retina Retinal Dystrophies - diagnosis Retinal Dystrophies - genetics Retinal Dystrophies - therapy Review Transgenes Treatment Outcome Vectors (Biology)
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description	Inherited retinal dystrophies (IRDs) are a group of clinically and genetically heterogeneous degenerative disorders. To date, mutations have been associated with IRDs in over 270 disease genes, but molecular diagnosis still remains elusive in about a third of cases. The methodologic developments in genome sequencing techniques that we have witnessed in this last decade have represented a turning point not only in diagnosis and prognosis but, above all, in the identification of new therapeutic perspectives. The discovery of new disease genes and pathogenetic mechanisms underlying IRDs has laid the groundwork for gene therapy approaches. Several clinical trials are ongoing, and the recent approval of Luxturna, the first gene therapy product for Leber congenital amaurosis, marks the beginning of a new era. Due to its anatomical and functional characteristics, the retina is the organ of choice for gene therapy, although there are quite a few difficulties in the translational approaches from preclinical models to humans. In the first part of this review, an overview of the current knowledge on methodological issues and future perspectives of gene therapy applied to IRDs is discussed; in the second part, the state of the art of clinical trials on the gene therapy approach in IRDs is illustrated.
doi_str_mv	10.3390/ijms20225722
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To date, mutations have been associated with IRDs in over 270 disease genes, but molecular diagnosis still remains elusive in about a third of cases. The methodologic developments in genome sequencing techniques that we have witnessed in this last decade have represented a turning point not only in diagnosis and prognosis but, above all, in the identification of new therapeutic perspectives. The discovery of new disease genes and pathogenetic mechanisms underlying IRDs has laid the groundwork for gene therapy approaches. Several clinical trials are ongoing, and the recent approval of Luxturna, the first gene therapy product for Leber congenital amaurosis, marks the beginning of a new era. Due to its anatomical and functional characteristics, the retina is the organ of choice for gene therapy, although there are quite a few difficulties in the translational approaches from preclinical models to humans. 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subjects	Animal models Animals Cell division Cellular structure Degenerative diseases Disease Disease Models, Animal Eye Gene Editing Gene therapy Gene Transfer Techniques Genetic Predisposition to Disease Genetic Therapy - methods Genetic Vectors - genetics Genomes Genotype & phenotype Humans Immune privilege Immunological tolerance Immunology Light Lymphatic system Mutation Photoreceptors Phototransduction Retina Retinal Dystrophies - diagnosis Retinal Dystrophies - genetics Retinal Dystrophies - therapy Review Transgenes Treatment Outcome Vectors (Biology)
title	Gene Therapy in Retinal Dystrophies
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