Helper-Dependent Adenovirus Transduces the Human and Rat Retina but Elicits an Inflammatory Reaction When Delivered Subretinally in Rats

Han, Ian C.; Burnight, Erin R; Ulferts, Mallory J; Worthington, Kristan S.; Russell, Stephen R.; Sohn, Elliott H.; Mullins, Robert F.; Stone, Edwin M.; Tucker, Budd A.; Wiley, Luke A

doi:10.1089/hum.2019.159

Cited by 23 publications

(19 citation statements)

References 48 publications

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“…Alternatively, adenoviral vectors display a sufficient cargo capacity (8–36 kb) to carry the full USH2A cDNA, and so would be an ideal candidate for gene replacement. Furthermore, they can efficiently transduce mouse and human retinal cells, such as the Helper-dependent Adenovirus 5 ( Han et al, 2019 ; Puppo et al, 2014 ). However, adenoviral vectors are prone to elicit a harmful inflammatory response leading to retinal damage.…”

Section: Therapeutic Strategiesmentioning

confidence: 99%

USH2A-retinopathy: From genetics to therapeutics

Toualbi

Toms

Moosajee

2020

Experimental Eye Research

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Bilallelic variants in the USH2A gene can cause Usher syndrome type 2 and non-syndromic retinitis pigmentosa. In both disorders, the retinal phenotype involves progressive rod photoreceptor loss resulting in nyctalopia and a constricted visual field, followed by subsequent cone degeneration, leading to the loss of central vision and severe visual impairment. The USH2A gene raises many challenges for researchers and clinicians due to a broad spectrum of mutations, a large gene size hampering gene therapy development and limited knowledge on its pathogenicity. Patients with Usher type 2 may benefit from hearing aids or cochlear implants to correct their hearing defects, but there are currently no approved treatments available for the USH2A -retinopathy. Several treatment strategies, including antisense oligonucleotides and translational readthrough inducing drugs, have shown therapeutic promise in preclinical studies. Further understanding of the pathogenesis and natural history of USH2A -related disorders is required to develop innovative treatments and design clinical trials based on reliable outcome measures. The present review will discuss the current knowledge about USH2A , the emerging therapeutics and existing challenges.

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Section: Therapeutic Strategiesmentioning

confidence: 99%

USH2A-retinopathy: From genetics to therapeutics

Toualbi

Toms

Moosajee

2020

Experimental Eye Research

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“…To characterize the tropism of chimeric HDAd5/3 and HDAd5/35 in human retina, we utilized our previously described approach of transducing cultured human retinal explants from fresh human donor eyes. 8,10 HDAd5/3 and HDAd5/35 were each evaluated in duplicate (ie, 2 explants per virus per independent donor eye; Table 1). We pipetted 10 mL [1 • 10 6 vector genomes/mL (vg/mL)] of virus directly beneath each explant on the photoreceptor side to create a ''bleb,'' mimicking a subretinal injection, as previously described.…”

Section: Culture and Viral Transduction Of Human Retinal Explantsmentioning

confidence: 99%

“…We pipetted 10 mL [1 • 10 6 vector genomes/mL (vg/mL)] of virus directly beneath each explant on the photoreceptor side to create a ''bleb,'' mimicking a subretinal injection, as previously described. 8,10 Treating explants in this manner ensures that the retina is exposed to virus similar to that which would occur in an in vivo injection, as opposed to simply bathing the virus in media containing the virus. Treated explants were cultured for 7 days with media changes occurring every other day.…”

Section: Culture and Viral Transduction Of Human Retinal Explantsmentioning

confidence: 99%

“…Recently, we showed that helper-dependent adenovirus serotype 5 (HDAd5), which has a large packing capacity (up to *35 kb), is capable of transducing explanted human retinal photoreceptors but preferentially targets Mu ¨ller cells and elicits a harmful inflammatory reaction when delivered subretinally in rats. 8 As such, we sought to test alternate helper-dependent adenoviruses (HDAds) that may be effective in transducing the retina and are less prone to inflammation. In this study, we evaluated the tropism and transduction efficiency of 2 chimeric HDAds, HDAd5/3 and HDAd5/35, in an ex vivo human explant and in wildtype rats.…”

Section: Introductionmentioning

confidence: 99%

“…We compared these results with our prior study evaluating tropism and transduction efficiency of different AAVs 9,10 as well as HDAd5. 8…”

Section: Introductionmentioning

confidence: 99%

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Chimeric Helper-Dependent Adenoviruses Transduce Retinal Ganglion Cells and Müller Cells in Human Retinal Explants

Han

Burnight

Kaalberg

et al. 2021

Journal of Ocular Pharmacology and Therapeutics

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Purpose: Despite numerous recent advances in retinal gene therapy using adeno-associated viruses (AAVs) as delivery vectors, there remains a crucial need to identify viral vectors with the ability to transduce specific retinal cell types and that have a larger carrying capacity than AAV. In this study, we evaluate the retinal tropism of 2 chimeric helper-dependent adenoviruses (HDAds), helper-dependent adenovirus serotype 5 (HDAd5)/3 and HDAd5/35, both ex vivo using human retinal explants and in vivo using rats. Methods: We transduced cultured human retinal explants with HDAd5/3 and HDAd5/35 carrying an eGFP vector and evaluated tropism and transduction efficiency using immunohistochemistry. To assess in vivo transduction efficiency, subretinal injections were performed in wild-type Sprague-Dawley rats. For both explants and subretinal injections, we delivered 10 mL (1 • 10 6 vector genomes/mL) and assessed tropism at 7-and 14-days post-transduction, respectively. Results: HDAd5/3 and HDAd5/35 both transduced human retinal ganglion cells (RGCs) and Mu ¨ller cells, but not photoreceptors, in human retinal explants. However, subretinal injections in albino rats resulted in transduction of the retinal pigmented epithelium only, highlighting species-specific differences in retinal tropism and the value of a human explant model when testing vectors for eventual human gene therapy. Conclusions: Chimeric HDAds are promising candidates for the delivery of large genes, multiple genes, or neuroprotective factors to Mu ¨ller cells and RGCs. These vectors may have utility for targeted therapy of neurodegenerative diseases primarily involving retinal ganglion or Mu ¨ller cell types, such as glaucoma or macular telangiectasia type 2.

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