Rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.

Rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.

Large animal models are an important resource for the understanding of human disease and for evaluating the applicability of new therapies to human patients. For many diseases, such as cone dystrophy, research effort is hampered by the lack of such models. Lentiviral transgenesis is a methodology br...

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Main Authors: Corinne Kostic, Simon Geoffrey Lillico, Sylvain Vincent Crippa, Nicolas Grandchamp, Héloïse Pilet, Stéphanie Philippe, Zen Lu, Tim James King, Jacques Mallet, Chamsy Sarkis, Yvan Arsenijevic, Christopher Bruce Alexander Whitelaw
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2013-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3747164?pdf=render
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spelling doaj-7784ac9227994fef97df496cab29b3292020-11-24T21:52:13ZengPublic Library of Science (PLoS)PLoS ONE1932-62032013-01-0188e7136310.1371/journal.pone.0071363Rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.Corinne KosticSimon Geoffrey LillicoSylvain Vincent CrippaNicolas GrandchampHéloïse PiletStéphanie PhilippeZen LuTim James KingJacques MalletChamsy SarkisYvan ArsenijevicChristopher Bruce Alexander WhitelawLarge animal models are an important resource for the understanding of human disease and for evaluating the applicability of new therapies to human patients. For many diseases, such as cone dystrophy, research effort is hampered by the lack of such models. Lentiviral transgenesis is a methodology broadly applicable to animals from many different species. When conjugated to the expression of a dominant mutant protein, this technology offers an attractive approach to generate new large animal models in a heterogeneous background. We adopted this strategy to mimic the phenotype diversity encounter in humans and generate a cohort of pigs for cone dystrophy by expressing a dominant mutant allele of the guanylate cyclase 2D (GUCY2D) gene. Sixty percent of the piglets were transgenic, with mutant GUCY2D mRNA detected in the retina of all animals tested. Functional impairment of vision was observed among the transgenic pigs at 3 months of age, with a follow-up at 1 year indicating a subsequent slower progression of phenotype. Abnormal retina morphology, notably among the cone photoreceptor cell population, was observed exclusively amongst the transgenic animals. Of particular note, these transgenic animals were characterized by a range in the severity of the phenotype, reflecting the human clinical situation. We demonstrate that a transgenic approach using lentiviral vectors offers a powerful tool for large animal model development. Not only is the efficiency of transgenesis higher than conventional transgenic methodology but this technique also produces a heterogeneous cohort of transgenic animals that mimics the genetic variation encountered in human patients.http://europepmc.org/articles/PMC3747164?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Corinne Kostic
Simon Geoffrey Lillico
Sylvain Vincent Crippa
Nicolas Grandchamp
Héloïse Pilet
Stéphanie Philippe
Zen Lu
Tim James King
Jacques Mallet
Chamsy Sarkis
Yvan Arsenijevic
Christopher Bruce Alexander Whitelaw
spellingShingle Corinne Kostic
Simon Geoffrey Lillico
Sylvain Vincent Crippa
Nicolas Grandchamp
Héloïse Pilet
Stéphanie Philippe
Zen Lu
Tim James King
Jacques Mallet
Chamsy Sarkis
Yvan Arsenijevic
Christopher Bruce Alexander Whitelaw
Rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.
PLoS ONE
author_facet Corinne Kostic
Simon Geoffrey Lillico
Sylvain Vincent Crippa
Nicolas Grandchamp
Héloïse Pilet
Stéphanie Philippe
Zen Lu
Tim James King
Jacques Mallet
Chamsy Sarkis
Yvan Arsenijevic
Christopher Bruce Alexander Whitelaw
author_sort Corinne Kostic
title Rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.
title_short Rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.
title_full Rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.
title_fullStr Rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.
title_full_unstemmed Rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.
title_sort rapid cohort generation and analysis of disease spectrum of large animal model of cone dystrophy.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2013-01-01
description Large animal models are an important resource for the understanding of human disease and for evaluating the applicability of new therapies to human patients. For many diseases, such as cone dystrophy, research effort is hampered by the lack of such models. Lentiviral transgenesis is a methodology broadly applicable to animals from many different species. When conjugated to the expression of a dominant mutant protein, this technology offers an attractive approach to generate new large animal models in a heterogeneous background. We adopted this strategy to mimic the phenotype diversity encounter in humans and generate a cohort of pigs for cone dystrophy by expressing a dominant mutant allele of the guanylate cyclase 2D (GUCY2D) gene. Sixty percent of the piglets were transgenic, with mutant GUCY2D mRNA detected in the retina of all animals tested. Functional impairment of vision was observed among the transgenic pigs at 3 months of age, with a follow-up at 1 year indicating a subsequent slower progression of phenotype. Abnormal retina morphology, notably among the cone photoreceptor cell population, was observed exclusively amongst the transgenic animals. Of particular note, these transgenic animals were characterized by a range in the severity of the phenotype, reflecting the human clinical situation. We demonstrate that a transgenic approach using lentiviral vectors offers a powerful tool for large animal model development. Not only is the efficiency of transgenesis higher than conventional transgenic methodology but this technique also produces a heterogeneous cohort of transgenic animals that mimics the genetic variation encountered in human patients.
url http://europepmc.org/articles/PMC3747164?pdf=render
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