Maria I. Patrício scite author profile

Retinal gene therapy is increasingly recognised as a novel molecular intervention that has huge potential in treating common causes of blindness, the majority of which have a genetic aetiology. 1-5 Choroideremia is a chronic X-linked retinal degeneration that was first described in 1872. 6 It leads to progressive blindness due to deficiency of Rab-escort protein 1 (REP1). We designed an adenoassociated viral vector to express REP1 and assessed it in a gene therapy clinical trial by subretinal injection in 14 patients with choroideremia. The primary endpoint was vision change in treated eyes two years after surgery compared to unoperated fellow eyes. Despite complications in two patients, visual acuity improved in the 14 treated eyes over controls (median 4.5 letter gain, vs 1.5 letter loss, p=0.04), with six treated eyes gaining more than one line of vision (>5 letters). The results suggest that retinal gene therapy can sustain and improve visual acuity in a cohort of predominantly late stage choroideremia patients in whom rapid visual acuity loss would ordinarily be predicted.

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Retinal Degeneration in Choroideremia follows an Exponential Decay Function

Aylward

Xue

Patrício

et al. 2018

Ophthalmology

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Inclusion of the Woodchuck Hepatitis Virus Posttranscriptional Regulatory Element Enhances AAV2-Driven Transduction of Mouse and Human Retina

Patrício

Barnard

Orlans

et al. 2017

Molecular Therapy - Nucleic Acids

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The woodchuck hepatitis virus posttranscriptional regulatory element (WPRE) has been included in the transgene cassette of adeno-associated virus (AAV) in several gene therapy clinical trials, including those for inherited retinal diseases. However, the extent to which WPRE increases transgene expression in the retina is still unclear. To address this question, AAV2 vectors containing a reporter gene with and without WPRE were initially compared in vitro and subsequently in vivo by subretinal delivery in mice. In both instances, the presence of WPRE led to significantly higher levels of transgene expression as measured by fundus fluorescence, western blot, and immunohistochemistry. The two vectors were further compared in human retinal explants derived from patients undergoing clinically indicated retinectomy, where again the presence of WPRE resulted in an enhancement of reporter gene expression. Finally, an analogous approach using a transgene currently employed in a clinical trial for choroideremia delivered similar results both in vitro and in vivo, confirming that the WPRE effect is transgene independent. Our data fully support the inclusion of WPRE in ongoing and future AAV retinal gene therapy trials, where it may allow a therapeutic effect to be achieved at an overall lower dose of vector.

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