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Minimum criteria for defining induced mesenchymal stem cells
Mesenchymal stem cells (MSCs) are a promising cell type for cell-based therapies. The therapeutic potential of MSCs has been verified in preclinical and clinical studies, however; low cell number in adult tissues, restricted expansion and differentiation capacity, and donor-related heterogeneity limit their use. To address these issues, there has been considerable interest in induced pluripotent stem cells (iPSCs) derived MSCs (induced mesenchymal stem cells [iMSCs]). Investigators obtain iMSCs from iPSCs of different origins, with variable methods of generation and expansion. Results of current studies have suggested iMSCs as a unique alternative source of MSCs. However, iMSCs are defined using the same criteria (proposed previously for primary MSCs by the International Society for Cellular Therapy [ISCT]) without realizing the distinct nature of iMSCs as compared to primary MSCs. To rationally define iMSCs, additional characterization is proposed along with ISCT's minimum criteria for defining primary MSCs. Minimum criteria for defining iMSCs should include (1) spindle-shaped morphology, (2) plastic adherent growth, (3) positive expression of CD29, CD44, CD73, CD90, CD105, along with negative expression of hematopoietic markers (CD45, CD34, CD14 or CD11b, CD79α or CD19, HLA-DR), (4) lack of expression of iPSCs induction factors, (5) trilineage differentiation potential, (6) lack of ability to form teratoma, and (7) release of MSC relevant paracrine factors. Defining the minimum criteria for iMSCs will be of great interest in the field and will provide a uniform description and identification of iMSCs to expedite progress in the field. Furthermore, due to increased interest in the clinical use of iMSCs, the above-mentioned additional characterization before the clinical application is important to avoid unwanted complications for recipients.12 month embargo; first published: 16 March 2022This item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at [email protected]
In Vitro Differentiation Potential of Human Placenta Derived Cells into Skin Cells
Skin autografting is the most viable and aesthetic technique for treatment of extensive burns; however, this practice has potential limitations. Harvesting cells from neonatal sources (such as placental tissue) is a simple, inexpensive, and noninvasive procedure. In the current study authors sought to evaluate in vitro potential of human placenta derived stem cells to develop into skin-like cells. After extensive washing, amniotic membrane and umbilical cord tissue were separated to harvest amniotic epithelial cells (AECs) and umbilical cord mesenchymal stem cells (UC-MSCs), respectively. Both types of cells were characterized for the expression of embryonic lineage markers and their growth characteristics were determined. AECs and UC-MSCs were induced to differentiate into keratinocytes-like and dermal fibroblasts-like cells, respectively. After induction, morphological changes were detected by microscopy. The differentiation potential was further assessed using immunostaining and RT-PCR analyses. AECs were positive for cytokeratins and E-Cadherin while UC-MSCs were positive for fibroblast specific makers. AECs differentiated into keratinocytes-like cells showed positive expression of keratinocyte specific cytokeratins, involucrin, and loricrin. UC-MSCs differentiated into dermal fibroblast-like cells indicated expression of collagen type 3, desmin, FGF-7, fibroblast activation protein alpha, procollagen-1, and vimentin. In conclusion, placenta is a potential source of cells to develop into skin-like cells