Scientists develop tissue ‘repair system’ from human fat cells

Posted on April 5, 2016 02:55 am

Australian researchers at the University of New South Wales( UNSW) in a research published today in Proceedings of the National Academy of Sciences believe they are close to being able to use stem cells to regrow human bone and tissue damaged by injury, illness or old age.According to their finding, the stem cell repair system works in a similar way to how a salamander is able to regrow a leg or its tail when they are removed. It is a technique that has the potential to heal wounds, chronic back injuries and bad bone fractures. UNSW Associate Professor John Pimanda said the technique uses a patient’s own cells so there is less chance of tissue rejection, and removes the ethical concerns surrounding the use of embryonic stem cells.Associate Professor Pimanda said his team took mouse and human bone and fat cells, and converted them into “induced multipotent stem cells”.”What’s different about these multipotent stem cells is that once we transplanted them into areas of tissue damage, they seem to demonstrate controlled tissue repair,” he said.”They only repaired the tissues that are damaged.”So in these particular models that we used, we damaged muscle [and] bone and the cells were regenerating the muscle, regenerating bone, they were generating their own blood supply.”And what was most amazing and most important for us is it was context dependent, we were not seeing tissues we didn’t want to see, we were not seeing tumours.” Dr Ralph Mobbs, also from the University of New South Wales, who will lead the human trials, said: “The therapy has enormous potential for treating back and neck pain, spinal disc injury, joint and muscle degeneration and could also speed up recovery following complex surgeries where bones and joints need to integrate with the body.”

Pimanda said it remained unclear exactly how these cells knew exactly what to regenerate and where.”I think the cell loses its hardwired identity, the fat cell forgets what it is. And it certainly seems to be responding to surrounding cues from the cells.”So although there’s a lot of work to be done to actually understand what the exact nature of this process is, it seems to be responding to signals.”Associate Professor Pimanda said he and his team were expecting human trials to start next year.”In the first instance we want to focus on muscular skeletal problems, repairing degenerated discs, it’s a huge problem in our communities,” he said.”But also these cells tend to generate their own blood supply and I think that’s quite significant, because we have people whose blood vessels are damaged, their tissues are dying because they don’t get enough blood and I think we can regenerate both the lost tissue as well regenerate their blood supplies.”UNSW have used the example of the salamander in their outline of the research, and Associate Professor Pimanda said that while that was not an incorrect analogy, they were still a long way away from being able to regenerate an entire human limb.”I think the analogy of the salamander is that these animals tend to regenerate their limbs by their mature cells at the site where the limb detaches going back in time and then proliferating and then going forwards again to make the skin and the fat and the muscle and bone etcetera that’s been lost,” Associate Professor Pimanda said.”So I think the analogy is correct in that our cells reject fat cells and we actually go back in time, we make a stem cell that has a potential of making various sorts of tissues.”So it goes back and it goes forwards and I guess that’s what the salamander does.”

Contador Harrison