Why
do we age, and why do we tend to become more ill as we do so? Most importantly,
what can we do to stop this imminent process? New research might have found the
answer to such questions, and it lies in our wrinkles — not the ones lining our
faces, but the ones in our cells.
If we find a way to
fix the wrinkles in our cells, we may reverse the aging process altogether.
Over recent years,
more and more research has been zeroing in on the aging process and what we can
do to stop it — and understandably so.
Seniority may come
with a range of conditions, including diabetes, fatty liver disease, cancer, cardiovascular disease, and even some neurodegenerative
conditions such as Alzheimer's.
But what is the
underlying cause of these aging-associated illnesses? Homing in on what occurs
during aging on a cellular level may hold the answer.
From rejuvenating existing cells to simply adding fresh stem cells to replace old ones, scientists are
trialing a variety of approaches that could extend our lives and keep us
disease-free for longer.
Now, a team of
researchers — led by Irina M. Bochkis, Ph.D., of the University of Virginia
School of Medicine in Charlottesville — has made a fascinating discovery. The
nuclei inside our cells, they show, tend to "wrinkle" as we age.
These wrinkles impair
the functioning of our genes, report the scientists. Luckily, however, Bochkis
and her team also have a few ideas about how to stop — or maybe even reverse —
the aging process by "smoothing out" these wrinkles.
How cellular wrinkles
cause disease
The nucleus of a cell
stores our DNA, explain the authors, and the new study shows the location of
our DNA within the nucleus to be of crucial importance.
"We have the same
DNA in every single cell, but each cell is different," explains Bochkis.
"So how does that work?"
"Well, actually,
certain genes need to be on in the liver, and they have to be turned off in the
brain, for example, and vice versa," she adds. "If they're not turned
off appropriately, then you have problems."
Normally, when these
genes are turned off, they are then pushed up against the membrane that
envelops the nucleus. But, with age, this nuclear membrane becomes lumpy and
wrinkly, which stops the genes from switching off as they should.
Turning to the example
of fatty liver disease — a condition tied to the aging process, which Bochkis
and her colleagues have taken as a model in their study — the senior
investigator explains, "When your nuclear membrane is no longer
functioning properly, it can release the DNA that's supposed to be turned off."
"So then your
little liver cell becomes a little fat cell," she continues, adding that
this important organ "can end up looking like Swiss cheese."
Is there a 'face
cream' for our cells?
Similarly to how
facial wrinkles are due to a lack of collagen, cellular wrinkles are caused by a lack of a
substance called lamin. Lamins are
a family of proteins that provide the cell with stability and strength.
The National
Institutes of Health (NIH) say that lamins are "supporting (scaffolding)
components of the nuclear envelope." They are located "in the nuclear
lamina, a mesh-like layer of intermediate filaments and other proteins that is
attached to the inner membrane of the nuclear envelope."
The nuclear envelope,
or membrane, controls what molecules go in and out of the nuclear cell; by
replacing the lost lamin, say the authors of the new study, we should be able
to smooth out the wrinkles of the nuclear membrane.
So how could we
"deliver" this vital protein at such a microscopic level to the
nuclear membrane of the cell? Bochkis believes that modified viruses could work
perfectly as a viable means of "transporting" the lamin
"cargo."
In gene therapy, engineered viruses are already being used as
"vectors" to deliver new genes by infecting the cells.
If the approach of
using viruses proves successful, "You're going to have [...] normal,
healthy cells — and they will appropriately express the genes that should be
expressed," explains Bochkis.
Such youthful cells
would help to keep a range of aging-related cardiometabolic conditions, such as
diabetes and heart disease, at bay.
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