Translational bypass of nonsense mutations in zebrafish rep1, pax2.1 and lamb1 highlights a viable therapeutic option for untreatable genetic eye disease

doi:10.1093/hmg/ddn302

Human Molecular Genetics Advance Access originally published online on September 22, 2008
Human Molecular Genetics 2008 17(24):3987-4000; doi:10.1093/hmg/ddn302

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Translational bypass of nonsense mutations in zebrafish rep1, pax2.1 and lamb1 highlights a viable therapeutic option for untreatable genetic eye disease

Mariya Moosajee¹, Kevin Gregory-Evans¹^,4, Charles D. Ellis², Miguel C. Seabra³ and Cheryl Y. Gregory-Evans¹^,4^,*

¹ Department of Clinical Neuroscience ² Section of Immunology and Infection ³ Department of Molecular and Cellular Medicine, Imperial College London, London SW7 2AZ, UK ⁴ The Western Eye Hospital, London NW1 5QH, UK

^* To whom correspondence should be addressed at: Department of Clinical Neuroscience, SAF Building, Imperial College London, Exhibition Road, London SW7 2AZ, UK. Tel: +44 2075943007; Fax: +44 2075943100. E-mail: c.gregory-evans{at}imperial.ac.uk

Received July 25, 2008; Accepted September 16, 2008

The extensive molecular genetic heterogeneity seen with inheritedeye disease is a major barrier to the development of gene-basedtherapeutics. The underlying molecular pathology in a considerableproportion of these diseases however are nonsense mutationsleading to premature termination codons. A therapeutic interventiontargeted at this abnormality would therefore potentially berelevant to a wide range of inherited eye diseases. We havetaken advantage of the ability of aminoglycoside drugs to suppresssuch nonsense mutations and partially restore full-length, functionalprotein in a zebrafish model of choroideraemia (chm^ru848; juvenilechorio-retinal degeneration) and in two models of ocular coloboma(noi^tu29a and gup^m189; congenital optic fissure closure defects).In vitro cell-based assays showed significant readthrough withtwo drugs, gentamicin and paromomycin, which was confirmed bywestern blot and in vitro prenylation assays. The presence ofeither aminoglycoside during zebrafish development in vivo showedremarkable prevention of mutant ocular phenotypes in each modeland a reduction in multisystemic defects leading to a 1.5–1.7-foldincrease in survival. We also identified a significant reductionin abnormal cell death shown by TUNEL assay. To test the hypothesisthat optic fissure closure was apoptosis-dependent, the anti-apoptoticagents, curcumin and zVAD-fmk, were tested in gup^m189 embryos.Both drugs were found to reduce the size of the coloboma, providingmolecular evidence that cell death is required for optic fissureremodelling. These findings draw attention to the value of zebrafishmodels of eye disease as useful preclinical drug screening toolsin studies to identify molecular mechanisms amenable to therapeuticintervention.

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