Stem cell materials could boost research into key diseases

Stem cell manufacturing for drug screening and treatments for diseases such as Huntington’s and Parkinson’s could be boosted by a new method of generating stem cells, a study suggests.

Scientists have developed a family of compounds that can support the growth of human embryonic stem cells on a large scale for use in drug testing or treatments.

The new materials, which are water-based gels, act as a tiny scaffold to which cells can cling as they grow. Normally cells must be grown on expensive biological surfaces that can carry pathogens and contaminate cells.

Once cells have multiplied sufficiently for their intended purpose, the gels can be cooled, enabling the stem cells to drop off the scaffold without becoming damaged.

The new approach surpasses existing techniques of separating cells by mechanical or chemical means, which carry a greater risk of damage to cells.

Scientists say the materials could offer a means of enabling the stem cells to be produced in large numbers efficiently and without the risk of inadvertent contamination, facilitating research, drug screening programmes and clinical applications that call for large numbers of cells.

Researchers at the University of Edinburgh developed the new materials by screening hundreds of potential compounds for their ability to support stem cell growth. From a shortlist of four, one has been found to be effective, and researchers say the remaining three show similar potential.

Stem cells provide a powerful tool for screening drugs as they can be used to show the effects of drugs on cells and systems within the body.

The study, published in Nature Communications, was supported by the European Union Framework 7 Grant Funding. The gels are being developed under licence by technology company Ilika.

Dr Paul de Sousa, of the University of Edinburgh’s Scottish Centre for Regenerative Medicine, said: “This development could greatly enhance automated production of embryonic stem cells, which would improve the efficiency and reduce the cost of stem cell manufacturing. We are also looking into whether this work could help develop pluripotent stem cells induced from adult cells.”

European Project Aims To Create 1,500 New Stem Cell Lines

A joint public-private collaboration between the European Union and Europe’s pharmaceutical industry, called the StemBANCC project, will spend nearly 50 million euros to create 1,500 pluripotent stem cell lines. But the initiative’s goal isn’t to find a stem cell-based cure for diabetes or Alzheimer’s disease. They hope instead that their stem cell lines will prove to be faster and more effective drug screens in the search for drugs to fight these and other conditions.

A frustrating problem in medical research is the inadequacy of animal models. All too often a treatment works great in laboratory rats or mice but then its efficacy fails to repeat in human trials. But researchers are beginning to capitalize on the potential of stem cells – not as cures, but as means to finding cures.

Scientists are becoming more adept at turning skin cells into pluripotent stem cells, which can then be converted to other cell types such as neurons or heart cells. And because these are human cells they are superior to animal models for drug screening or toxicity testing. Human cell lines have been used for many years, but before pluripotent stem cells creating cell lines involved immortalizing the cells and thus drastically changing their physiology.

The goal of StemBANCC is to use these human-induced pluripotent stem cells as a drug discovery platform to treat the following 8 common diseases: Alzheimer’s disease, Parkinson’s disease, autism, schizophrenia, bipolar disorder, migraine, pain and diabetes. Studying these conditions typically involves creating an animal model, such as a rat that exhibits some behavioral hallmarks of autism after being given valproic acid. The cells from StemBANCC would improve upon animal models by providing, not only cells from humans but cells from patients with the actual disorders being studied. Skin cells gotten from a schizophrenia patient and converted (via pluripotency) to neurons, for instance, would give scientists a powerful tool with which to screen drugs.

Led by Oxford University, StemBANCC will involve 10 pharmaceutical companies and 23 academic institutions across 11 different countries. Part of the Innovative Medicines Initiative that pairs the European Union and the pharmaceutical industry. The EU is contributing 26 million euros ($33.5 million). Another 21 million euros ($27 million) are coming from the pharmaceutical industry. StemBANCC’s “kick-off” meeting took place in 2012 in Basel, Switzerland.

Zameel Cader, neurologist at the University of Oxford and a leader on the project, told Nature, “We’re specifically trying to develop a panel of lines across a range of diseases that are important to address. There isn’t another institution that’s doing this at the same scale across the same range of diseases.”

The hype surrounding stem cells typically extolls their virtues as a miraculous ‘cure all’ replacing damaged or diseased cells with new, healthy ones. And while stem cells have given blind people back part of their sight and have shown to restore some hearing in animals or even help paralyzed ones walk again in the lab, mainstream cures derived from stem cells are still rare. In the meantime, places like StemBANCC can pursue the less sexy, perhaps, but more reachable near term benefits of stem cells.