Background aims: With the growing use of stem cell media technologies in research and clinical settings, there has been an increased demand for validated cell-based quality control tools that can first, routinely test performance of stem cell media products, second, verify stem cell line identity, and third, demonstrate differentiation potential. As a significant amount of time and effort is required to verify these aspects separately, especially with classic functional stains that take as along as 28 days to perform, there is a need for a quick, sensitive and validated assay with short turn around time.
Methods: Culture, gene microarray and polymerase chain reaction (PCR) methodologies were utilized in the design, development and testing of a standardized performance assay for the expansion, identity and differentiation potential of human multipotent mesenchymal stromal cells (MSC).
Results: A simplified culture- and PCR-based assay was validated and transferred into a quality control setting for performance testing of human MSC under uninduced and adipogenesis-induced conditions.
Conclusions: An effective strategy has been demonstrated for identifying candidate genes, validating a gene of interest and creating an inexpensive low-technology PCR assay for distinguishing uninduced and early stage differentiating stem cells. This approach extends published criteria guidelines for routinely detecting uninduced human MSC and their differentiated progeny.