This brings scientists a step closer to developing therapies to counteract the aging of cells, by targeting mitochondria. In a study, published today in the EMBO Journal and led by Dr JoĆ£o Passos at Newcastle University, they found that when mitochondria were eliminated from aging cells they became much more similar to younger cells. As we grow old, cells in our bodies accumulate different types of damage and have increased inflammation, factors which are thought to contribute to the aging process.
The team carried out a series of genetic experiments involving human cells grown in the laboratory and succeeded in eliminating the majority, if not all, the mitochondria from aging cells. Cells can normally eliminate mitochondria which are faulty by a process called mitophagy. The scientists were able to “trick” the cells into inducing this process in a grand scale, until all the mitochondria within the cells were physically removed.
To their surprise, they observed that the aging cells, after losing their mitochondria, showed characteristics similar to younger cells, that is they became rejuvenated. The levels of inflammatory molecules, oxygen free radicals and expression of genes which are among the makers of cellular aging dropped to the level that would be expected in younger cells.
Dr JoĆ£o Passos said: “This is a very exciting and surprising discovery. We already had some clues that mitochondria played a role in the aging of cells, but scientists around the world have struggled to understand exactly how and to what extent these were involved. The team led by Newcastle University and involving other universities in the UK and the US, also deciphered a new mechanism by which mitochondria contribute to aging. They identified that as cells grow old, mitochondrial biogenesis, the complex process by which mitochondria replicate themselves, is a major driver of cellular aging. “Now we are a step closer to devising therapies which target mitochondria to counteract the aging of cells,” said Dr Clara Correia-Melo. http://www.ncl.ac.uk/press/news/2016/02/mitochondriashowntotriggercellageing/
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