13 hours ago This is Kevin Kit Parker, the Thomas D. Cabot Associate Professor of Applied Science and Associate Professor of Biomedical Engineering, and Harvard Stem Cell Institute Principal Faculty member, has identified standards making it possible to quantitatively judge and compare commercially available stem cell lines. Credit: Jon Chase/Harvard Staff Photographer

After more than a decade of incremental and paradigm shifting, advances in stem cell biology, almost anyone with a basic understanding of life sciences knows that stem cells are the basic form of cell from which all specialized cells, and eventually organs and body parts, derive.

But what makes a "good" stem cell, one that can reliably be used in drug development, and for disease study? Researchers have made enormous strides in understanding the process of cellular reprogramming, and how and why stem cells commit to becoming various types of adult cells. But until now, there have been no standards, no criteria, by which to test these ubiquitous cells for their ability to faithfully adopt characteristics that make them suitable substitutes for patients for drug testing. And the need for such quality control standards becomes ever more critical as industry looks toward manufacturing products and treatments using stem cells.

Now a research team lead by Kevin Kit Parker, a Harvard Stem Cell Institute (HSCI) Principal Faculty member has identified a set of 64 crucial parameters from more than 1,000 by which to judge stem cell-derived cardiac myocytes, making it possible for perhaps the first time for scientists and pharmaceutical companies to quantitatively judge and compare the value of the countless commercially available lines of stem cells.

"We have an entire industry without a single quality control standard," said Parker, the Tarr Family Professor of Bioengineering and Applied Physics in Harvard's School of Engineering and Applied Sciences, and a Core Member of the Wyss Institute for Biologically Inspired Engineering.

HSCI Co-director Doug Melton, who also is co-chair of Harvard's Department of Stem Cell and Regenerative Biology, called the standard-setting study "very important. This addresses a critical issue," Melton said. "It provides a standardized method to test whether differentiated cells, produced from stem cells, have the properties needed to function. This approach provides a standard for the field to move toward reproducible tests for cell function, an important precursor to getting cells into patients or using them for drug screening."

Parker said that starting in 2009, he and Sean P. Sheehy, a graduate student in Parker's lab and the first author on a paper just given early on-line release by the journal Stem Cell Reports, "visited a lot of these companies (commercially producing stem cells), and I'd never seen a dedicated quality control department, never saw a separate effort for quality control." Parker explained many companies seemed to assume that it was sufficient simply to produce beating cardiac cells from stem cells, without asking any deeper questions about their functions and quality.

"We put out a call to different companies in 2010 asking for cells to start testing," Parker says, "some we got were so bad we couldn't even get a baseline curve on them; we couldn't even do a calibration on them."

Brock Reeve, Executive Director of HSCI, noted that "this kind of work is as essential for HSCI to be leading in as regenerative biology and medicine, because the faster we can help develop reliable, reproducible standards against which cells can be tested, the faster drugs can be moved into the clinic and the manufacturing process."

The quality of available human stem cells varied so widely, even within a given batch, that the only way to conduct a scientifically accurate study, and establish standards, "was to use mouse stem cells," Parker said, explaining that his group was given mouse cardiac progenitor cells by the company Axiogenesis.

Read more:
Establishing standards where none exist: Researchers define 'good' stem cells

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