Syndicate content

Archive - Apr 3, 2013

Date

Stem Cell Advance Should Speed Clinical Applications

A team of New York Stem Cell Foundation (NYSCF) Research Institute scientists led by David Kahler, Ph.D., NYSCF Director of Laboratory Automation, together with colleagues from Weill Cornell Medical College and Columbia University, has developed a new way to generate induced pluripotent stem (iPS) cell lines from human fibroblasts, acquired from both healthy and diseased donors. Reported online on March 29, 2013 in the open-acces journal PLOS ONE, this cell-sorting method consistently selects the highest quality, standardized iPS cells, representing a major step forward for drug discovery and the development of cell therapies. Employing a breakthrough method developed by 2012 Nobel laureate Shinya Yamanaka, M.D., Ph.D., adult cells are “reprogrammed” or caused to revert to an embryonic-like state, commonly through viral infection. Reprogramming is a dynamic process, resulting in a mixture of fully reprogrammed iPS cells, partially reprogrammed cells, and residual adult cells. Previous protocols to select promising fully reprogrammed cells rely primarily on judging stem cell colonies by eye through a microscope. Cell colonies selected by qualitative measures could include partially reprogrammed cells, a major concern for clinical applications of cell therapies because these cells could become any other cell type in a patient following transplantation. Additionally for drug efficacy assays and toxicity investigations on iPS cells, heterogeneous cell populations can mar the response of representative iPS cell lines. The NYSCF scientists developed a quantitative protocol, optimized over three and a half years, in order to consistently harvest early-reprogrammed cells. Using fluorescence activated cell sorting (FACS), fully reprogrammed cells were identified by two specific proteins, or pluripotency markers.