Aqueous two‐phase systems as a novel alternative in the primary recovery of human mesenchymal cells obtained from adipose tissue

Abstract

AbstractIn recent years, therapies based on regenerative medicine have gained wide interest owing to their potential in organ transplantation and in the treatment of multiple diseases. These cell‐based therapies rely mainly on the therapeutic potential of stem cells as a result of their self‐renewal, differentiation, capacities and immunosuppressive properties. Adipose tissue contains a large number of mesenchymal stem cells compared to other tissues and is easily accessible through noninvasive techniques; hence the primary recovery of adipose‐derived mesenchymal stem cells (ASC) has become a critical step. Aqueous two‐phase systems (ATPS) have shown promise as a separation technique for mesenchymal stem cells (MSC) as a result of their scalability, cost‐effectiveness and compatibility. In this study, we investigated the partitioning behavior of the stromal vascular fraction cells, including ASC, in different ATPS compositions [polyethylene glycol, dextran (DEX), Ficoll and Ucon). Among the three ATPS tested, most of the ASC consistently migrates to the top phase as indicated by immunostaining studies for CD73, CD90 and CD105 stem cell markers. Nevertheless, the Ficoll–DEX system retrieves the greatest quantity of ASC recovered in the top phase (89% of total ASC), whereas the Ucon–DEX system effectively eliminates the most contaminating cells (38%). Our findings provide insights into the conditions under which ASC and contaminant cells concentrate in opposite phases in different ATPS, which can contribute to the development of efficient and scalable separation systems for MSC in regenerative medicine and tissue engineering applications. © 2024 Society of Chemical Industry (SCI).