Evaluating precision medicine approaches for gene therapy in patient-specific cellular models of Bietti crystalline dystrophy
Yao Li, Richard R. Yang, Yong-Shi Li, Chun-Wei Hsu, Laura A. Jenny, Yang Kong, Merry Z.C. Ruan, Janet R. Sparrow, Stephen H. Tsang
Yao Li, Richard R. Yang, Yong-Shi Li, Chun-Wei Hsu, Laura A. Jenny, Yang Kong, Merry Z.C. Ruan, Janet R. Sparrow, Stephen H. Tsang
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Research Article Ophthalmology Therapeutics

Evaluating precision medicine approaches for gene therapy in patient-specific cellular models of Bietti crystalline dystrophy

Abstract

Patient-specific induced pluripotent stem cell–derived (iPSC-derived) cell lines allow for therapies to be tailored to individual patients, increasing therapeutic precision and efficiency. Bietti crystalline dystrophy (BCD) is a rare blinding disease estimated to affect about 67,000 individuals worldwide. Here, we used iPSC-derived retinal pigment epithelium (iRPE) cells from patients with BCD to evaluate adeno-associated virus–mediated (AAV-mediated) gene augmentation therapy strategies. We found that BCD iRPE cells were vulnerable to blue light–induced oxidative stress and that cellular phenotype can be quantified using 3 robust biomarkers: reactive oxygen species (ROS), 4-hydroxy 2-nonenal (4-HNE) levels, and cell death rate. Additionally, we demonstrated that AAV-mediated gene therapy can significantly reduce light-induced cell death in BCD iRPE cells. This is the first proof-of-concept study to our knowledge to show that AAV-CYP4V2 gene therapy can be used to treat light-induced RPE damage in BCD. Furthermore, we observed significant variability in cellular phenotypes among iRPE from patients with BCD of divergent mutations, which outlined genotype-phenotype correlations in BCD patient–specific cell disease models. Our results reveal that patient-specific iRPE cells retained personalized responses to AAV-mediated gene therapy. Therefore, this approach can advance BCD therapy and set a precedent for precision medicine in other diseases, emphasizing the necessity for personalization in healthcare to accommodate individual diversity.

Authors

Yao Li, Richard R. Yang, Yong-Shi Li, Chun-Wei Hsu, Laura A. Jenny, Yang Kong, Merry Z.C. Ruan, Janet R. Sparrow, Stephen H. Tsang

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Figure 3

Personalized preference to different AAV treatment strategies and distinct outcome measurements of therapeutic efficacy from iRPE in individual patients with BCD.

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Personalized preference to different AAV treatment strategies and distin...
(A) Schematic of AAV gene augmentation therapy strategies, which indicates the timing and dosage of the AAV application. High dosage equals AAV MOI of 1 × 105 (vg/cell) and low dosage equals AAV MOI of 1 × 104 (vg/cell). (BD) Comparison of AAV therapeutic efficacy from different vectors and dosages (indicated by color legend) as measured by ROS levels (B), 4-HNE concentration (C), and cell death rate under AAV treatment plan (D) according to A, respectively. In B, C, and D, respectively, left charts present the outcome comparison of iRPE from grouped patients with BCD of each AAV treatment strategy. Right charts present outcome measurement comparison of iRPE from individual patients with BCD of each AAV treatment strategy. All data are presented as mean ± SD, in B, C, and D for group comparison; n = 6 biological repeats, except n = 4 biological replicates in WT group of 4-HNE. n = 6–23; significance calculated by t test. *P < 0.05, **P < 0.01, ***P < 0.001.