Taghrid Gaafar
Background and Objectives: Scaffolds are threedimensional (3D) matrices that provide support for cells to attach, proliferate, and differentiate, facilitating extracellular matrix formation. The study aimed to examine the differentiation potential of Mesenchymal stem cells (MSCs) into hepatocytes in 2D and 3D culture systems to improve their in vitro differentiation, and test their functionality in vivo. Methods: MSCs were generated from umbilical cord blood. Hepatogenic differentiation was induced on 2D and 3D cultures and characterized by morphology, scanning electron microscopy, immunocytochemistry and Gene expression. Albumin and α-1 antitrypsin (AAT) in culture supernatants were measured. Differentiated Cells were administered IV into a murine model of carbon tetra (CCL4) induced liver cirrhosis which were divided into 3 groups, a) Pathological control group, b) and c) Groups treated with hepatogenic differentiated MSCs cultured on 2D and 3D culture system respectively. After 12 weeks of injection, liver pathology was examined. Results: The hepatogenic differentiated MSCs stained positively for albumin, alpha fetoprotein (AFP), Heppar1, cytokeratin7, 18, and OV6 with more mature cells, hexagonal in shape with central nuclei forming large sheets in groups in 3D culture system. AAT secretion and Indocyanine green uptake were significantly increased. in 3D system. In experimental model, MSC-3D treated group exhibited maximal restoration of liver architecture with absent septal fibrosis and marked improvement of ALT, AST. Conclusions: Both 3D and 2D culture system are effective in functional hepatogenic differentiation from MSCs. In vivo hepatogenic differentiation is more effective on 3D scaffold, with better functional recovery.
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