Abstract
Retinal pigment epithelial(RPE) cells derived from human embryonic stem cells (hESCs) are superior cell sources for cell replacement therapy in individuals with retinal degenerative diseases; however, studies on the stable and secure banking of these therapeutic cells are scarce. Highly variable cell viability and functional recovery ofRPE cells after cryopreservation are the most commonly encountered issues. In the present protocol, we aimed to achieve the best cell recovery rate after thawing by selecting the optimal cell phase for freezing based on the original experimental conditions. Cells were frozen in the exponential phase determined by using the 5-ethynyl-2'-deoxyuridine labeling assay, which improved cell viability and recovery rate after thawing. Stable and functional cells were obtained shortly after thawing, independent of a long differentiation process. The methods described here allow the simple, efficient, and inexpensive preservation and thawing of hESC-derived RPE cells. Although this protocol focuses on RPE cells, this freezing strategy may be applied to many other types of differentiated cells.
Published Version
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