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Cone and rod photoreceptor transplantation in models of the childhood retinopathy Leber congenital amaurosis using flow-sorted Crx-positive donor cells

Cone and rod photoreceptor transplantation in models of the childhood retinopathy Leber congenital amaurosis using flow-sorted Crx-positive donor cells
Cone and rod photoreceptor transplantation in models of the childhood retinopathy Leber congenital amaurosis using flow-sorted Crx-positive donor cells

Retinal degenerative disease causing loss of photoreceptor cells is the leading cause of untreatable blindness in the developed world, with inherited degeneration affecting 1 in 3000 people. Visual acuity deteriorates rapidly once the cone photoreceptors die, as these cells provide daylight and colour vision. Here, in proof-of-principle experiments, we demonstrate the feasibility of cone photoreceptor transplantation into the wild-type and degenerating retina of two genetic models of Leber congenital amaurosis, the Crb1(rd8/rd8) and Gucy2e(-/-) mouse. Crx-expressing cells were flow-sorted from the developing retina of CrxGFP transgenic mice and transplanted into adult recipient retinae; CrxGFP is a marker of cone and rod photoreceptor commitment. Only the embryonic-stage Crx-positive donor cells integrated within the outer nuclear layer of the recipient and differentiated into new cones, whereas postnatal cells generated a 10-fold higher number of rods compared with embryonic-stage donors. New cone photoreceptors displayed unambiguous morphological cone features and expressed mature cone markers. Importantly, we found that the adult environment influences the number of integrating cones and favours rod integration. New cones and rods were observed in ratios similar to that of the host retina (1:35) even when the transplanted population consisted primarily of cone precursors. Cone integration efficiency was highest in the cone-deficient Gucy2e(-/-) retina suggesting that cone depletion creates a more optimal environment for cone transplantation. This is the first comprehensive study demonstrating the feasibility of cone transplantation into the adult retina. We conclude that flow-sorted embryonic-stage Crx-positive donor cells have the potential to replace lost cones, as well as rods, an important requirement for retinal disease therapy.

Animals, Blindness/therapy, Cell Differentiation, Cell Transplantation/methods, Disease Models, Animal, Embryo, Mammalian, Leber Congenital Amaurosis/therapy, Mice, Mice, Transgenic, Retina/cytology, Retinal Cone Photoreceptor Cells/transplantation, Retinal Rod Photoreceptor Cells/transplantation
0964-6906
4545-59
Lakowski, J
1856e739-982a-412a-87c7-abf1610f5384
Baron, M
b9c726fc-060f-4b30-98eb-570e08d4fa56
Bainbridge, J
b613d81f-0929-47e0-a7f8-60b1f038f69b
Barber, A C
60076cd1-0d5b-47d4-a4e1-b7251e5e2f8f
Pearson, R A
18250a80-8721-41bf-973a-81ff106d7c6f
Ali, R R
dff77886-d2f3-4259-afde-bbbaf99a0ed9
Sowden, J C
e042184a-dbe3-4a58-9f91-c31a5463b893
Lakowski, J
1856e739-982a-412a-87c7-abf1610f5384
Baron, M
b9c726fc-060f-4b30-98eb-570e08d4fa56
Bainbridge, J
b613d81f-0929-47e0-a7f8-60b1f038f69b
Barber, A C
60076cd1-0d5b-47d4-a4e1-b7251e5e2f8f
Pearson, R A
18250a80-8721-41bf-973a-81ff106d7c6f
Ali, R R
dff77886-d2f3-4259-afde-bbbaf99a0ed9
Sowden, J C
e042184a-dbe3-4a58-9f91-c31a5463b893

Lakowski, J, Baron, M, Bainbridge, J, Barber, A C, Pearson, R A, Ali, R R and Sowden, J C (2010) Cone and rod photoreceptor transplantation in models of the childhood retinopathy Leber congenital amaurosis using flow-sorted Crx-positive donor cells. Human Molecular Genetics, 19 (23), 4545-59. (doi:10.1093/hmg/ddq378).

Record type: Article

Abstract

Retinal degenerative disease causing loss of photoreceptor cells is the leading cause of untreatable blindness in the developed world, with inherited degeneration affecting 1 in 3000 people. Visual acuity deteriorates rapidly once the cone photoreceptors die, as these cells provide daylight and colour vision. Here, in proof-of-principle experiments, we demonstrate the feasibility of cone photoreceptor transplantation into the wild-type and degenerating retina of two genetic models of Leber congenital amaurosis, the Crb1(rd8/rd8) and Gucy2e(-/-) mouse. Crx-expressing cells were flow-sorted from the developing retina of CrxGFP transgenic mice and transplanted into adult recipient retinae; CrxGFP is a marker of cone and rod photoreceptor commitment. Only the embryonic-stage Crx-positive donor cells integrated within the outer nuclear layer of the recipient and differentiated into new cones, whereas postnatal cells generated a 10-fold higher number of rods compared with embryonic-stage donors. New cone photoreceptors displayed unambiguous morphological cone features and expressed mature cone markers. Importantly, we found that the adult environment influences the number of integrating cones and favours rod integration. New cones and rods were observed in ratios similar to that of the host retina (1:35) even when the transplanted population consisted primarily of cone precursors. Cone integration efficiency was highest in the cone-deficient Gucy2e(-/-) retina suggesting that cone depletion creates a more optimal environment for cone transplantation. This is the first comprehensive study demonstrating the feasibility of cone transplantation into the adult retina. We conclude that flow-sorted embryonic-stage Crx-positive donor cells have the potential to replace lost cones, as well as rods, an important requirement for retinal disease therapy.

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More information

Published date: 1 December 2010
Keywords: Animals, Blindness/therapy, Cell Differentiation, Cell Transplantation/methods, Disease Models, Animal, Embryo, Mammalian, Leber Congenital Amaurosis/therapy, Mice, Mice, Transgenic, Retina/cytology, Retinal Cone Photoreceptor Cells/transplantation, Retinal Rod Photoreceptor Cells/transplantation
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Identifiers

Local EPrints ID: 431141
URI: http://eprints.soton.ac.uk/id/eprint/431141
DOI: doi:10.1093/hmg/ddq378
ISSN: 0964-6906
PURE UUID: 3cd24e3a-3ae5-476a-9157-f9371858aba7
ORCID for J Lakowski: ORCID iD orcid.org/0000-0003-4214-7580

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Date deposited: 24 May 2019 16:30
Last modified: 16 Mar 2024 04:33

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Contributors

Author: J Lakowski ORCID iD
Author: M Baron
Author: J Bainbridge
Author: A C Barber
Author: R A Pearson
Author: R R Ali
Author: J C Sowden

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