Abstract
Glycerol and dimethyl sulfoxide (DMSO) are widely used cryoprotectants for freezing human cell cultures. During the manufacturing process of ocular stem cell-based autographs, ex vivo cultivated ocular cells are cryopreserved for quality control purposes in accordance with regulatory requirements. The efficiency of the cryopreservation methods is limited by their effect on cell survival and quality. We compared two cryopreservation reagents, glycerol and DMSO, for their influence on the survival and quality of human primary conjunctival cultures. We found increased cell viability after cryopreservation in DMSO compared to cryopreservation in glycerol. The clonogenic and proliferative capacity was unaffected by the cryopreservation reagents, as shown by the colony forming efficiency and cumulative cell doubling. Importantly, the percentage of p63α- and keratin 19 (K19)-positive cells following cryopreservation in DMSO or glycerol was comparable. Taken together, our results demonstrate that cryopreservation in DMSO improves cell survival compared to cryopreservation in glycerol, with no subsequent effect on cell proliferative-, clonogenic-, or differentiation capacity. Therefore, we advise the use of a 10% DMSO-based cryopreservation medium for the cryopreservation of human primary conjunctival cells, as it will improve the number of cells available for the manufacturing of conjunctival stem cell-based autografts for clinical use.
Highlights
The ocular surface is lined by conjunctival cells covering the sclera and by transparent corneal epithelium covering the stroma
Through post-thaw cell viability assays and quality control assays, including expression of phenotypic markers, colony forming efficiency (CFE), and cumulative cell doubling (CCD) assays during an in vitro life span test, we found increased viability following cryopreservation in dimethyl sulfoxide (DMSO) compared to glycerol and unchanged cell quality
We investigated post-thaw cell viability, CFE, CCD, and expression of phenotypic markers
Summary
The ocular surface is lined by conjunctival cells covering the sclera and by transparent corneal epithelium covering the stroma. Stem cell therapy has proven to be a valuable therapeutic tool for restoring the ocular surface.[2,3,4] Autologous tissue-engineered epithelial sheets have recently been approved in Europe for surface reconstruction in patients suffering from limbal stem cell deficiency. For this reason, tissue-engineered conjunctival autografts have been proposed as a treatment for patients with severe conjunctival defects.[5,6]
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