Scientists have discovered an on/off switch for ageing cells
Scientists have
discovered an on/off switch for ageing cells
Posted By: - Tarun
Researchers
have found a molecular “switch” that controls how fast cells age, and could
play an important role in ageing and cancer.
In our bodies,
our cells are constantly dividing in order to replenish our lungs, skin, liver
and other organs. But most human cells can’t divide forever, and eventually
this causes our organs and tissues to degrade as we age.
The
"timekeeper" of our cells are telomeres - little DNA caps that sit at
the end of our chromosomes, sort of like that plastic bit at the end of your
shoelace. Each time a cell divides, these telomeres get shorter and shorter
until eventually they're so short the cell can no longer divide.
But researchers
know that there is a way to stop the telomere from wearing down - some cells
can produce an enzyme called telomerase, which rebuilds telomeres and let’s
cells divide indefinitely. However they've struggled to understand why
telomerase acts in some cells and not others.
Now researchers
from the Salk Institute for Biological Studies in the US have discovered that
telomerase has an on/off switch - and can be present in a cell but not slow
down ageing if it's turned off.
“Previous
studies had suggested that once assembled, telomerase is available whenever it
is needed,” senior author Vicki Lundblad said in a press release. “We were
surprised to discover instead that telomerase has what is in essence an ‘off’
switch, whereby it disassembles.” Their research is published in the journal
Genes and Development.
It’s a pretty
huge breakthrough, because if scientists can now work out how to manipulate
this “off” switch, it could help them slow down the ageing process and lead to
treatments for age-related diseases. And, interestingly, it may also provide
insight into cancer cells, which require telomerase to help them divide
uncontrollably.
Lundblad, along
with graduate student Timothy Tucey, discovered this switch in yeast, by using
a new technique that allowed them to monitor each component of telomerase while
a cell grew and divided.
Each time a
cell divides, its genome must be duplicated completely. And the scientists
found that while a cell was replicating, telomerase was sitting in a
“preassembly” mode, waiting for a molecular subunit to be added once genome
duplication was complete.
But
surprisingly, as soon as the telomerase was assembled, it quickly disassembled
and switched into the “off” position, they discovered.
The researchers
believe that this off switch might help the body keep telomerase at
exceptionally low levels inside the cells in order to avoid the uncontrollable
cell growth that can lead to cancer. But it could also be the key to helping
cells divide for longer.
While it might
not seem as though these experiments in a single-celled yeast can tell us much
about human cells, much of the initial research on telomerase was done in yeast
cells and laid the groundwork for future discoveries in humans.
The next step
is to understand more about this switch and how it is involved in ageing and
cancer, and then scientists can try to understand how it can be manipulated to
keep people healthier for longer.
Source: Salk Institute for
Biological Studies