Connie Zhang scite author profile

Considerable progress has been made in testing stem cell–derived retinal pigment epithelium (RPE) as a potential therapy for age-related macular degeneration (AMD). However, the recent reports of oncogenic mutations in induced pluripotent stem cells (iPSCs) underlie the need for robust manufacturing and functional validation of clinical-grade iPSC-derived RPE before transplantation. Here, we developed oncogenic mutation-free clinical-grade iPSCs from three AMD patients and differentiated them into clinical-grade iPSC-RPE patches on biodegradable scaffolds. Functional validation of clinical-grade iPSC-RPE patches revealed specific features that distinguished transplantable from nontransplantable patches. Compared to RPE cells in suspension, our biodegradable scaffold approach improved integration and functionality of RPE patches in rats and in a porcine laser-induced RPE injury model that mimics AMD-like eye conditions. Our results suggest that the in vitro and in vivo preclinical functional validation of iPSC-RPE patches developed here might ultimately be useful for evaluation and optimization of autologous iPSC-based therapies.

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MicroRNA‐204/211 alters epithelial physiology

Wang

et al. 2010

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MicroRNA (miRNA) expression in fetal human retinal pigment epithelium (hfRPE), retina, and choroid were pairwise compared to determine those miRNAs that are enriched by 10-fold or more in each tissue compared with both of its neighbors. miRs-184, 187, 200a/200b, 204/211, and 221/222 are enriched in hfRPE by 10- to 754-fold compared with neuroretina or choroid (P<0.05). Five of these miRNAs are enriched in RPE compared with 20 tissues throughout the body and are 10- to 20,000-fold more highly expressed (P<0.005). miR-204 and 211 are the most highly expressed in the RPE. In addition, expression of miR-204/211 is significantly lower in the NCI60 tumor cell line panel compared with that in 13 normal tissues, suggesting the progressive disruption of epithelial barriers and increased proliferation. We demonstrated that TGF-beta receptor 2 (TGF-betaR2) and SNAIL2 are direct targets of miR-204 and that a reduction in miR-204 expression leads to reduced expression of claudins 10, 16, and 19 (message/protein) consistent with our observation that anti-miR-204/211 decreased transepithelial resistance by 80% and reduced cell membrane voltage and conductance. The anti-miR-204-induced decrease in Kir7.1 protein levels suggests a signaling pathway that connects TGF-betaR2 and maintenance of potassium homeostasis. Overall, these data indicate a critical role for miR-204/211 in maintaining epithelial barrier function and cell physiology.

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Survival of Retinal Pigment Epithelium after Exposure to Prolonged Oxidative Injury: A Detailed Gene Expression and Cellular Analysis

Strunnikova

Zhang

Teichberg

et al. 2004

Invest. Ophthalmol. Vis. Sci.

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Mapping of the Neonatal Fc Receptor in the Rodent Eye

Kim

Fariss

Zhang

et al. 2008

Invest. Ophthalmol. Vis. Sci.

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Connie Zhang

Clinical-grade stem cell–derived retinal pigment epithelium patch rescues retinal degeneration in rodents and pigs

MicroRNA‐204/211 alters epithelial physiology

Survival of Retinal Pigment Epithelium after Exposure to Prolonged Oxidative Injury: A Detailed Gene Expression and Cellular Analysis

Mapping of the Neonatal Fc Receptor in the Rodent Eye

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