Scientists use stem cells to grow new human hair in the lab

Next step: transplant stem-cell-derived human dermal papilla cells back into human subjects (any volunteers?)
January 28, 2015

Sanford-Burnham scientists grew human dermal papillae cells from stem cells (credit: Sanford-Burnham Medical Research Institute)

A method for initiating human hair growth — using human pluripotent stem cells to create new cells — has been developed by Sanford-Burnham Medical Research Institute (Sanford-Burnham) researchers.

Their idea is to coax human pluripotent stem cells to become dermal papilla cells — a unique population of cells that regulate hair-follicle formation and growth cycle. (Human dermal papilla cells on their own are not suitable for hair transplants because they cannot be obtained in necessary amounts and rapidly lose their ability to induce hair-follicle formation in culture, the researchers explain.)

Dermal papilla (credit: Dorlands/Elsevier/Wikimedia Commons)

“The method is a marked improvement over current methods that rely on transplanting existing hair follicles from one part of the head to another,” said Alexey Terskikh, Ph.D., associate professor in the Development, Aging, and Regeneration Program at Sanford-Burnham.

“Our stem cell method provides an unlimited source of cells from the patient for transplantation and isn’t limited by the availability of existing hair follicles,” Terskikh said.

“We developed a protocol to drive human pluripotent stem cells to differentiate into dermal papilla cells and confirmed their ability to induce hair growth when transplanted into mice.”

“Our next step is to transplant human dermal papilla cells derived from human pluripotent stem cells back into human subjects. We are currently seeking partnerships to implement this final step.”

In the U.S. alone, more than 40 million men and 21 million women are affected by hair loss, according to the researchers.

The research was published online in PLOS One (open access) Tuesday (Jan. 27). Terskikh was supported in the study by funds from Sanford Burnham Medical Research Institute, located in La Jolla, California and Orlando, Florida.


Abstract of Derivation of hair-inducing cell from human pluripotent stem cells

Dermal Papillae (DP) is a unique population of mesenchymal cells that was shown to regulate hair follicle formation and growth cycle. During development most DP cells are derived from mesoderm, however, functionally equivalent DP cells of cephalic hairs originate from Neural Crest (NC). Here we directed human embryonic stem cells (hESCs) to generate first NC cells and then hair-inducing DP-like cells in culture. We showed that hESC-derived DP-like cells (hESC-DPs) express markers typically found in adult human DP cells (e.g. p-75, nestin, versican, SMA, alkaline phosphatase) and are able to induce hair follicle formation when transplanted under the skin of immunodeficient NUDE mice. Engineered to express GFP, hESC-derived DP-like cells incorporate into DP of newly formed hair follicles and express appropriate markers. We demonstrated that BMP signaling is critical for hESC-DP derivation since BMP inhibitor dorsomorphin completely eliminated hair-inducing activity from hESC-DP cultures. DP cells were proposed as the cell-based treatment for hair loss diseases. Unfortunately human DP cells are not suitable for this purpose because they cannot be obtained in necessary amounts and rapidly loose their ability to induce hair follicle formation when cultured. In this context derivation of functional hESC-DP cells capable of inducing a robust hair growth for the first time shown here can become an important finding for the biomedical science.