While in the thymus, these cells teach T-cells to recognize and destroy bacteria and cancer cells - a key component to the immune system. The experiment's results show that these cells have the ability to express genetic markers unlike its original make-up when placed in different microenviroments. Until now, experiments using hair follicle stem cells to maintain hair and skin growth have met with limited results. The thymic stem cells have proven effective for up to a year after implantation-a major improvement over the three-week performance of bona fide hair follicle stem cells. "This operation could have theoretically been reproduced with other organs," continues EPFL Professor Barrandon. Not only could these findings create new opportunities in the field of organ transplantation and regeneration, for severe burn victims for example, but they also call into question standard biological models by showing that it is possible to create tissues from cells with different embryonic origins.
When an animal develops, embryos form three cellular or germ layers – ectoderm, endoderm and mesoderm – which then go on to form the body's organs and tissues. Ectoderm becomes skin and nerves, endoderm becomes the gut and organs such as the liver, pancreas and thymus, and mesoderm becomes muscle, bones and blood. Until now it was believed that germ layer boundaries could not be crossed – that cells originating in one germ layer could not develop into cells associated with one of the others. This latest research shows that thymus cells, originating from the endoderm, can turn in to skin stem cells, which originate from the ectoderm origin. This suggests germ layer boundaries are less absolute than previously thought.
Science Daily
August 31, 2010
Original web page at Science Daily
