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Determining the optimal stage for cryopreservation of human embryonic stem cell-derived retinal pigment epithelial cells

Ting Zhang, Xianyu Huang, Sujun Liu, Xinyue Bai, Xinyue Zhu, Dennis Clegg, Mei Jiang, Xiaodong Sun

2022Stem Cell Research & Therapy12 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Human embryonic stem cell-derived retinal pigment epithelial cells (hESC-derived RPE) are a promising source for cell-replacement therapy to treat retinal degenerative diseases, but research on RPE cryopreservation is limited. This study aimed to determine the best phase for RPE cryopreservation to preserve the post-thaw function and uncover the mechanism underlying RPE freezing tolerance. METHODS: hESC-derived RPE cells were cryopreserved at various time points after seeding. After thawing, the survival and attachment rates, RPE marker gene expression, apical-basal polarity, PEDF secretion, transepithelial resistance, and phagocytotic ability of post-thaw RPE cells were evaluated. RNA sequencing was performed on RPE cells at three-time points, differentially expressed genes were identified, and gene ontology, Kyoto encyclopedia of genes and genomes, and protein-protein interaction analyses were used to investigate the key pathways or molecules associated with RPE cell freezing tolerance. RESULTS: RPE frozen at passage 2 day 5 (P2D5) had the highest cell viability and attachment after thawing. They also retained properly localized expression of RPE marker genes and biological functions such as PEDF secretion, high transepithelial resistance, and phagocytic ability. The RNA-sequencing analysis revealed that RPE cells at P2D5 expressed high levels of cell cycle/DNA replication and ECM binding associated genes, as well as THBS1, which may serve as a possible hub gene involved in freezing tolerance. We also confirmed that the RPE cells at P2D5 were in the exponential stage with active DNA replication. CONCLUSIONS: We propose that freezing hESC-derived RPE cells during their exponential phase results in the best post-thawing outcome in terms of cell viability and preservation of RPE cell properties and functions. The high expression levels of the cell cycle and ECM binding associated genes, particularly THBS1, may contribute to better cell recovery at this stage.

Topics & Concepts

Embryonic stem cellStem cellCell biologyRetinal pigment epitheliumBiologyRetinalCryopreservationStage (stratigraphy)AnatomyEmbryoGeneticsBiochemistryGenePaleontologyRetinal Development and DisordersPluripotent Stem Cells ResearchCRISPR and Genetic Engineering
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