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May 5th, 2014 at 12:54 pm

Researchers develop new method to grow human skin from stem cells that replicates the real thing

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The method could viably produce enough skin samples to be used commercially for drug and cosmetics testing.

The use of animal testing for medical research than for cosmetics testing is much easier to defend.  Yet many cosmetics companies continue to test on animals to ensure that their products don’t produce negative outcomes for their human customers.

 

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Even as medical researchers produce “organs on a chip” to help with drug testing, developing human skin for cosmetics testing has remained elusive. Simply cultivating skin cells in a petri dish doesn’t work because the cells don’t proliferate enough to be useful for many tests. And fabricating skin cells from stem cells has also fallen short, because the epidermal cells grown in a lab culture don’t produce the same barrier that human skin uses to keep moisture in and toxins out.

Researchers at King’s College London and the San Francisco Veteran Affairs Medical Center report they have cleared those hurdles.

“Our new method can be used to grow much greater quantities of lab-grown human epidermal equivalents, and thus could be scaled up for commercial testing of drugs and cosmetics,” said Theodora Mauro, who led the San Francisco team.

Using both human embryonic stem cells and induced pluripotent stem cells, they developed keratinocytes, the cells that make up the skin’s protective barrier. They positioned the cells into layers while gradually reducing the humidity in the cell culture, and ended up with a stratified epidermis with skin barrier properties similar to those of normal skin. (Essentially, different proteins dominated in each layer.)

The method could viably produce enough skin samples to be used commercially for drug and cosmetics testing, according to the researchers.

An added benefit: Making the skin from stem cells means that particular diseases could be intentionally produced for study, including common skin ailments like dermatitis in which a defective skin barrier means that toxins cannot be handily repelled and become irritants. Admittedly, these diseases are neither life-threatening nor medically exciting, but they are a big nuisance for those who suffer from them. Some, like atopic dermatitis, remain poorly understood.

“The ability to obtain an unlimited number of genetically identical units can be used to study a range of conditions where the skin’s barrier is defective due to mutations in genes involved in skin barrier formation. We can use this model to study how the skin barrier develops normally, how the barrier is impaired in different diseases and how we can stimulate its repair and recovery,” Mauro said.

Use of stem cell-based proxies for specific human organs, both to study disease behavior and to test drugs, is a rapidly growing market. In many cases its benefits are so hypothetical — eliminating negative outcomes that would, statistically, have happened if in vitro organ tissue hadn’t been used — that they go unheralded. It will be interesting if the benefits of lab-made skin — potentially vastly reduced animal testing laboratories — garner more attention for the technique.

Photo credit: How Stuff Works

Via Singularity Hub

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