TORONTO — A Canadian-led international team of researchers has begun solving the mystery of how a cell taken from a person’s skin is reprogrammed into an embryonic-like stem cell, from which any other cell type in the body can be generated.
The research is being touted as a breakthrough in regenerative medicine that will allow scientists to one day harness stem cells to treat or even cure a host of conditions, from blindness and Parkinson’s disease to diabetes and spinal-cord injuries.
In addition to creating the reprogramming road map, the scientists also identified a new type of stem cell, called an F-class stem cell due to its fuzzy appearance. Their work is detailed in five papers published Wednesday in the prestigious journals Nature and Nature Communications.
Dr. Andras Nagy, a senior scientist at Mount Sinai Hospital in Toronto, led the team of 50 researchers from Canada, the Netherlands, South Korea and Australia, which spent four years analyzing and cataloguing the day-by-day process that occurs in stem-cell reprogramming.
The work builds on the 2006-2007 papers by Shinya Yamanaka, who showed that adult skin cells could be turned into embryonic-like, or pluripotent, stem cells through genetic manipulation, a discovery that garnered the Japanese scientist the Nobel Prize in 2012.
Dr. Nagy likened the roughly 21-day process to complete that transformation to an airplane’s “black box” that tracks its flight, because scientists did not know what went on within the cells as they morphed from one cell type into the other.
“You start with a skin cell, you arrive at a stem cell — but we had no idea what was happening inside the cell.” he said Wednesday following a briefing at the hospital.
Dr. Nagy’s team set about cataloguing the changes as they occurred by removing cells from culture dishes at set points during the three-week period, then analyzing such cellular material as DNA and proteins present at that moment.
The result is a database that will be available to scientists around the world, which the team hopes will spur new research to advance the field of stem cell-based regenerative medicine.
Co-author Ian Rogers, a scientist in Dr. Nagy’s lab, said the database will allow researchers to identify various properties of developing stem cells, which could mean improving their ability to treat or cure disease.
‘You start with a skin cell, you arrive at a stem cell — but we had no idea what was happening inside the cell’
Dr. Jim Woodgett, director of the Lunenfeld-Tanenbaum Research Institute at Mount Sinai, said Dr. Nagy’s team has in effect created a rule book for tissue regeneration.
“This encyclopedic data set … will worldwide help to power many more discoveries by hundreds of research labs working in this field and in the fields of cancer and fetal development and many other areas,” he said.
Calling it an extraordinary achievement, Ontario Health Minister Dr. Eric Hoskins hailed the research as a game-changer that will open up new frontiers in scientific and medical knowledge around the globe.
“This research can and will and is leading to new medical treatments using a patient’s own cells,” he told the briefing. “That kind of individualized treatment is something that physicians like me have only dreamed of in the past.”
Dr. Nagy said the next step is to further mine the database to understand more of what is happening during the cell-to-stem cell transformation. He estimated the work so far represents only about 10% of the knowledge that can be gleaned about the process.
The ultimate goal, of course, is to translate the basic science into therapies that will help patients, he said.
“In the end, we hope that this research and this knowledge is going to accelerate the process of using cell-based therapies for regenerative medicine. Then everybody’s going to benefit.”
The Canadian Press