Scientists have succeeded in transforming skin cells into cells closely resembling heart cells, pancreas cells and even neurons.
However, a method to generate cells that are fully mature-a crucial prerequisite for life-saving therapies-has proven far more difficult.
However, scientists at the Gladstone Institutes and the University of California, San Francisco (UCSF), have made an important breakthrough: they have discovered a way to transform skin cells into mature, fully functioning liver cells that flourish on their own, even after being transplanted into laboratory animals modified to mimic liver failure.
Researchers in the laboratories of Gladstone Senior Investigator Sheng Ding, PhD, and UCSF Associate Professor Holger Willenbring, MD, PhD, reveal a new cellular reprogramming method that transforms human skin cells into liver cells that are virtually indistinguishable from the cells that make up native liver tissue.
These results offer new hope for the millions of people suffering from, or at risk of developing, liver failure-an increasingly common condition that results in progressive and irreversible loss of liver function.
This research, which was performed jointly at the Roddenberry Center for Stem Cell Research at Gladstone and the Broad Center of Regeneration Medicine and Stem Cell Research at UCSF, involved using a 'cocktail' of reprogramming genes and chemical compounds to transform human skin cells into cells that resembled the endoderm. Endoderm cells are cells that eventually mature into many of the body's major organs-including the liver.
The study has been published in the journal Nature.