Researchers at the Stanford University School of Medicine have developed a new procedure to increase the length of human telomeres. This increases the number of times cells are able to divide, essentially making the cells many years younger. This not only has useful applications for laboratory work, but may point the way to treating various age-related disorders – or even muscular dystrophy.
Telomeres are the caps at the ends of our chromosomes that protect the DNA code of the genome. Linked to aging and disease, they are 8,000 to 10,000 nucleotides long in young people, but this decreases as we age (a nucleotide is an organic molecule that is a subunit of nucleic acids DNA and RNA). The researchers have found a way to lengthen a telomere by 1,000 nucleotides, which Dr. Helen Brau, professor of microbiology and immunology at Stanford, says is the equivalent of "many years of human life."
Telomeres shorten each time a cell divides and at a certain point, when they reach a critical length, the cell can no longer divide and will die. Their limited lifespan means that growing cells in laboratories can be tricky, given there can only be so many cell doublings before they give up the ghost. Telomere function in humans has been linked to many diseases and they have been studied for decades, often in the hope of better understanding or delaying the aging process.
Cells treated with Stanford’s procedure multiply in a similar way to much younger cells, compared with untreated cells of the same age. According to the researchers, skin cells with telomeres lengthened by the procedure were able to divide around 28 more times than untreated cells, while muscle cells divided about three more times. With this new procedure, which uses modified RNA, many more cells can be easily generated for study and drug development or disease modeling.
link.
No comments:
Post a Comment