Transplantation of Photoreceptors Derived From Human Müller Glia Restore Rod Function in the P23H Rat

Author:

Jayaram Hari12,Jones Megan F.1,Eastlake Karen1,Cottrill Phillippa B.1,Becker Silke1,Wiseman Joseph1,Khaw Peng T.12,Limb G. Astrid1

Affiliation:

1. Ocular Biology & Therapeutics, UCL Institute of Ophthalmology, London, United Kingdom

2. NIHR Biomedical Research Centre for Ophthalmology, UCL Institute of Ophthalmology & Moorfields Eye Hospital NHS Foundation Trust, London, United Kingdom

Abstract

Abstract Müller glia possess stem cell characteristics that have been recognized to be responsible for the regeneration of injured retina in fish and amphibians. Although these cells are present in the adult human eye, they are not known to regenerate human retina in vivo. Human Müller glia with stem cell characteristics (hMSCs) can acquire phenotypic and genotypic characteristics of rod photoreceptors in vitro, suggesting that they may have potential for use in transplantation strategies to treat human photoreceptor degenerations. Much work has been undertaken in rodents using various sources of allogeneic stem cells to restore photoreceptor function, but the effect of human Müller glia-derived photoreceptors in the restoration of rod photoreceptor function has not been investigated. This study aimed to differentiate hMSCs into photoreceptor cells by stimulation with growth and differentiation factors in vitro to upregulate gene and protein expression of CRX, NR2E3, and rhodopsin and various phototransduction markers associated with rod photoreceptor development and function and to examine the effect of subretinal transplantation of these cells into the P23H rat, a model of primary photoreceptor degeneration. Following transplantation, hMSC-derived photoreceptor cells migrated and integrated into the outer nuclear layer of the degenerated retinas and led to significant improvement in rod photoreceptor function as shown by an increase in a-wave amplitude and slope using scotopic flash electroretinography. These observations suggest that hMSCs can be regarded as a cell source for development of cell-replacement therapies to treat human photoreceptor degenerations and may also offer potential for the development of autologous transplantation.

Funder

Medical Research Council and the Royal College of Surgeons of Edinburgh

Medical Research Council

Publisher

Oxford University Press (OUP)

Subject

Cell Biology,Developmental Biology,General Medicine

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