An
antioxidant that targets specific cell structures –mitochondria – may
be able to reverse some of the negative effects of aging on arteries,
reducing the risk of heart disease, according to a new study by the
University of Colorado Boulder.
When the research team gave old mice –
the equivalent of 70- to 80-year-old humans – water containing an
antioxidant known as MitoQ for four weeks, their arteries functioned as
well as the arteries of mice with an equivalent human age of just 25 to
35 years.
The researchers believe that MitoQ
affects the endothelium, a thin layer of cells that lines our blood
vessels. One of the many functions of the endothelium is to help
arteries dilate when necessary. As people age, the endothelium is less
able to trigger dilation and this leads to a greater susceptibility to
cardiovascular disease.
“One of the hallmarks of primary aging is
endothelial dysfunction,” said Rachel Gioscia-Ryan, a doctoral student
in CU-Boulder’s Department of Integrative Physiology and lead author of
the new study. “MitoQ completely restored endothelial function in the
old mice. They looked like young mice.”
The study, published in the Journal of
Physiology, was funded by the National Institute on Aging, one of the 27
institutes and centers of the National Institutes of Health and a
leader in the scientific effort to understand the nature of aging.
To trigger blood vessel dilation, the
endothelium makes nitric oxide. As we age, the nitric oxide meant to
cause dilation is increasingly destroyed by reactive oxygen species such
as superoxide, which are produced by many components of our body’s own
cells, including organelles called mitochondria.
In a double-whammy, superoxide also
reacts directly with the enzyme that makes nitric oxide, reducing the
amount of nitric oxide being produced to begin with. All of this means
less blood vessel dilation.
Even in the young and healthy,
mitochondria produce superoxide, which is necessary in low levels to
maintain important cellular functions. Superoxide is kept in check by
the body’s own antioxidants, which combine with superoxide to make it
less reactive and prevent oxidative damage to cells.
“You have this kind of balance, but with
aging there is this shift,” said Gioscia-Ryan, who works in Professor
Douglas Seals’ Integrative Physiology of Aging Laboratory at CU-Boulder.
“There become way more reactive oxygen species than your antioxidant
defenses can handle.”
That phenomenon, known as oxidative
stress, occurs when the cells of older adults begin to produce too much
superoxide and other reactive oxygen species. Mitochondria are a major
source of superoxide in aging cells. The increased superoxide not only
interacts with nitric oxide and the endothelium, but can also attack the
mitochondria themselves. The damaged mitochondria become increasingly
dysfunctional, producing even more reactive oxygen species and creating
an undesirable cycle.
Past studies have looked at whether
taking antioxidant supplements long term could improve vascular function
in patients with cardiovascular disease by restoring balance to the
levels of superoxide, but they’ve largely shown that the strategy isn’t
effective.
This new study differs because it uses an
antioxidant that specifically targets mitochondria. Biochemists
manufactured MitoQ by adding a molecule to ubiquinone (also known as
coenzyme Q10), a naturally occurring antioxidant. The additional
molecule makes the ubiquinone become concentrated in mitochondria.
“The question is, ‘Why aren’t we all just
taking a bunch of vitamin C?” Gioscia-Ryan said. “Scientists think
that, taken orally, antioxidants like vitamin C aren’t getting to the
places where the reactive oxygen species are being made. MitoQ basically
tracks right to the mitochondria.”
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