Abstract

Background Recent studies indicated that human amnion mesenchymal stem cells (hAMSCs) can be induced to differentiate into multiple types of cells in vitro,but whether the hAMSCs can differentiate into ocular surface cells has not been reported yet.Objective This study was to investigate the feasibility of inducing differentiation of hAMSCs into ocular surface cells by co-culturing with human bulbar conjunctiva fibroblasts (hBCFs).Methods This study was approved by Ethic Committee of Affiliated Second Hospital of Guangzhou Medical University.HAMSCs were isolated from placenta under the informed consent of healthy delivery women.hAMSCs were cultured,passaged and identified by detecting the expressions of CD44,CD45,CD73,CD90 in the cells with flow cytometer,osteogenesis and adipogenic differentiation experiments.Human conjunctival tissue was obtained during the eye operation under the informed consent of patients and hBCFs were isolated and cultured with explant culture.The cells were divided into the hAMSCs culture group and the hAMSCs and hBCFs co-culture group and cultivated in Transwell chambers for 7 days.The expressions of cytokeratin 19 (CK19) and α-smooth muscle actin (α-SMA) in the cells were assayed by immnofluorescence technique.Results Cultured hAMSCs showed the slender shape and cell body enlarged with passage.CD44,CD73 and CD90 were expressed in the cells,and the expression of CD45 was absent.After 3-4 weeks of osteogenesis and adipogenic induce,the cells showed red staining for alizarin and oil red O.In the co-culture group of hAMSCs and hBCFs,hAMSCs presented the epithelioid cell-like in shape and showed the positive response for CK19 and weaker response for α-SMA.However,in the hAMSCs culture group,the cells showed the positive response for α-SMA and absent response for CK19.Conclusions The hAMSCs can differentiate into ocular surface cells after being induced by hBCFs.And the differentiation mechanism is possibly relevant to mesenchymal cells epithelium. Key words: Human amnion mesenchymal stem cell; Co-culture; Induce; Differentiation; Ocular surface cell

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