Human pluripotent stem cells, which include both human embryonic stem cells(hESCs) and adult stem cells like induced pluripotent stem cells (iPSCs), need large numbers for transplantation into patients but the process of translating their potential into effective, real-world treatments involves deciphering and resolving a host of daunting complexities, according to a new study.
The authors say they have definitively shown that the culture conditions in which stem cells are grown and mass-produced can affect their genetic stability.
Human pluripotent stem cells are cultured in several different ways. Key variables are the surfaces upon which the cells are cultured, called the substrate, and the methods used to transfer cells from one culture dish into another as they grow, called the passage method. Originally, scientists determined that stem cells grew best when cultured atop of a "feeder" layer that included other types of cells, such as irradiated mouse embryonic fibroblasts. For reasons not fully understood, these cells provide stem cells with factors that support their growth. However, concerns about the feeder cells also introducing undesirable materials into stem cells has prompted development of feeder-free cultures.
Moving cells from one culture dish to another has traditionally been done manually, with technicians physically separating the cultured cells into small clumps with an instrument. "It's very labor-intensive," said Laurent, "so new methods that use enzymes to separate individual cells were created."
In the paper, the authors compared stem cells grown on two substrates (with and without feeder cells) and passaged using manual and enzymatic methods. They report that the use of enzymes to passage the stem cells was strongly associated with increased genetic instability. Some of the mutations observed in the stem cells were previously known, but authors write that others were seen for the first time, including deletion of a region of the genome that includes the gene P53, which is frequently deleted in cancer cells.
"I think these results call into question the use of enzymatic passaging, at least with enzymes that separate the cultures into single cells, for clinical use. However, we don't want to imply that any culture method is absolutely 'safe'," said Louise Laurent, MD, PhD, assistant professor and director of perinatal research in the Department of Reproductive Medicine at UC San Diego School of Medicine and corresponding author of the PLOS ONE paper. "Any new culture method should be evaluated for its impact on genetic stability, and every batch of cells destined for the clinic should be tested using sensitive high-resolution methods for detecting genetic alterations.
"The processes used to maintain and expand stem cell cultures for cell replacement therapies need to be improved, and the resulting cells must be carefully tested before use."
Co-authors include Ibon Gariaonandia, Gerald K. Wambua, Heather L Schultheisz, Shannon Waltz, Yu-Chieh Wang, Ha Tran, Kristopher Nazor, Ileana Slavin, Candace Lynch and Ron Coleman, TSRI; Karen Sabatini, Francesca S. Boscolo, Trevor R. Leonardo and Gulsah Altun, TSRI and UCSD; Irene Gallego Romero, University of Chicago; David Reynolds and Steve Dalton, University of Georgia, Athens; and Hadar Amir, Robert Morey, Mana Parast and Yingchun Li, UCSD. Funding for this research came, in part, from the California Institute for Regenerative Medicine (grants CL1-00502, RT1-01108, TR1-01250, RM1-01717, TB1-01193, TG2-01165), the National Institutes of Health (grants R33MH087925, P01GM085354, P01HL089471), the UC San Diego Department of Reproductive Medicine, the Hartwell Foundation, the Millipore Foundation, the Esther O'Keefe Foundation, the Marie Mayer Foundation, Autism Speaks, the Pew Charitable Trust and the Wellcome Trust.
How Pluripotent Stem Cells Are Grown Affects Their Genetic Stability
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