Drug Developers Increase Their Use of Stem Cells


Industries have increased their use of stem cells in research and development and product testing and the industrial use of stem cells will almost certainly increase in the future.

Despite the image of stem cells in the popular imagination as the stalwarts of regenerative medicine, stem cells have revolutionized drug development and testing. James Thomson, director of regenerative biology at the Morgridge Institute for Research in Madison, Wisconsin, and one of the founders of Cellular Dynamics International, also in Madison, said, “I think there are tremendous parallels to the early days of recombinant DNA in this field. I don’t think people appreciated what a broad-ranging tool recombinant DNA was in the middle ’70s.” Thomson also thinks that people also seriously underestimate the tremendous number of hurdles that must be overcome in order to use such technologies in clinical treatments. Stem cells, according to Thomson, are in a similar situation. While the therapeutic use of these cells might eventually come to fruition, “people underappreciate how broadly enabling a research tool it is.”

About two years ago, drug companies began to investigate the use of stem cells in testing and evaluating new drugs. Today, the pharmaceutical industries all over the world are increasingly using stem cell lines to test drug toxicity and identify and evaluate potential new therapies. For example, Thomson’s company, Cellular Dynamics, sells human heart cells called cardiomyocytes, which are made from induced pluripotent stem (iPS) cells. Thomson says that “essentially all the major pharma companies” have purchased these cells for use in their laboratories. The company also produces brain cells and cells that line blood vessels, and is about to release a line of human liver cells.

Cellular Dynamics is not the only company that makes stem cell lines for drug testing. Three years ago, a stem-cell biologist named Stephen Minger left his job in at a United Kingdom university to be the head of General Electric Healthcare’s push into stem cells. This medical-technology company, which is headquartered in Chalfont St. Giles, UK, has been selling human heart cells made from embryonic stem (ES) cells for well over a year, and is due to start selling ES cell-derived liver cells soon.

Minger’s team at GE Healthcare assessed their ES-derived heart muscle cells in a blind trial against a set of unnamed drug compounds to determine if they could determine which compounds were toxic. Once the tests were completed, Minger said that they found that the cells had been affected by those compounds that are known to be toxic. However, the stem cells also identified a problem that had only been discovered after the drugs had reached the market (after they had been approved by the US Food and Drug Administration). According to Minger, “These are compounds which went all the way through animal testing, then went through phase I, II, III and then were licensed in many cases by the FDA.”

Stem cell lines can do more than identify drugs with dangerous side effects’ they can save the industry millions of dollars in wasted development costs. However, they might also be tools for drug development. Cellular Dynamics and GE Healthcare even market their cells from this very purpose. Adam Rosenthal, senior director for strategic and corporate development at iPierian, a biopharmaceutical company based in San Francisco, California, said, “Many of the animal models out there are poor, demonstrating great efficacy in the mouse, but not repeating in man during late-stage clinical trials. Therefore having an in vitro model years before, which can actually recapitulate human disease, would be a huge advantage.

iPierian has a different strategy than other stem cell companies, since it has its own proprietary in-house stem cell lines that it uses. It does not sell those cell lines, but uses them to develop treatments for neurodegenerative diseases; e.g., Alzheimer’s. This same company has recently announced that they are going to move forward with their development of monoclonal antibodies that target the tau proteins thought to be important in the onset of Alzhiemer’s disease. iPierian made this decision based on information that came from stem-cell work.

Lee Rubin, co-founder of iPierian and director of translational medicine at the Harvard Stem Cell Institute in Cambridge, Massachusetts, says that there is debate within industry if stem cells serve as appropriate model systems to study certain diseases. This is particularly the case with particularly non-genetic or late-onset disorders or conditions that result from pathological interactions between different tissues. Rubin has used stem cells in his research to model a disease called spinal muscular atrophy, which is actually a group of early onset genetic disorders. Rubin makes it clear that the only way to definitively demonstrate that stem cells are a superior model system from drug discovery is to show that the drugs developed from stem cell-based models works in people. Rubin put it this way, “That’s a long-term project. That’s the ultimate test.”

Thomson notes that stem cells will almost certainly find even wider uses than drug-development work. “What human ES cells and iPS cells now do is give you access to the basic building blocks of the human body, just for basic study. We will understand the human body at a much greater detail because of these cells.” How stem cells will be used are not clear, but Thomson added, “But I do think it will profoundly change human medicine.”

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mburatov

Professor of Biochemistry at Spring Arbor University (SAU) in Spring Arbor, MI. Have been at SAU since 1999. Author of The Stem Cell Epistles. Before that I was a postdoctoral research fellow at the University of Pennsylvania in Philadelphia, PA (1997-1999), and Sussex University, Falmer, UK (1994-1997). I studied Cell and Developmental Biology at UC Irvine (PhD 1994), and Microbiology at UC Davis (MA 1986, BS 1984).

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