WHY DO WE GROW OLD?
You may have imagined that all living things
must inevitably wear out. Cars and vacuum cleaners in daily use eventually stop
working. It is easy to suppose that animals age and die in a similar way. But
professor of zoology Steven Austad explains: “living organisms are very
different from machines. The most fundamental defining character of living
organisms, in fact, may be their ability to repair themselves.”
The way your body repairs itself after an
injury is marvelous, but the routine repairs it makes are, in some respects,
even more remarkable. Consider your bones, for example. “Seemingly inert when
viewed from the outside, bone is a living tissue that ceaselessly destroys and
rebuilds itself throughout adult life,” This remodeling essentially replaces
the entire skeleton every 10 years.”
Other parts of your body are renewed more
often. Some cells in your skin, liver, and intestines may be replaced almost
daily. Every second, your body produces about 25 million new cells as
replacements. If this did not happen and all the parts of your body were not
constantly repaired or replaced, you would grow old during childhood.
The fact that we do not wear out
was seen to be even more remarkable when biologists began studying the
molecules within living cell. When your cells are regenerated, each new cell
must have a copy of your DNA, the molecule that contains much of the
information needed to produce your entire body.
Imagine how many times DNA has been
reproduced, not just during your lifetime in your own body but since human life
began! To understand how amazing this is, consider what would happen if you
used a photocopier to copy a document and then used the new copy to make next
copy. If you did this repeatedly, the quality of the copies would deteriorate
and eventually become unreadable. Happily, the quality of our DNA does not
deteriorate or wear out when our cells repeatedly divide.
Why? Because our cells have many
ways of repairing DNA copy errors. If that were not true, mankind would long
ago have become a pile of dust! Since all the parts of our body –from the major
structures to the tiny molecules –are constantly replaced or repaired, wear and
tear does not fully explain aging. The body’s numerous systems repair or
replace themselves for decades, each in a different way and at a different
pace. So, then, who do they all begin to close down about the same time?
Why does a house cat live 20
years, but a similar-size opossum live only 3 years? Why can a bat live 20 or
30 years, but a mouse only 3? Why can a giant tortoise live 150 years, but an
elephant only 70? Factors such as diet, body weight, brain size, or rate of
living do not explain such diversity of life spans.
Locked within the code of the genetic
materials are instructions that specify the age beyond which a species cannot
live. Maximum life span is written in the genes. But as the end of that life
span approaches, what causes all body functions to start closing down?
There seem to be mysterious
signals that simply show up at certain times and tell cells to quit doing their
normal adult functions. Genes exist which can tell cells, and indeed entire
organisms, to grow old and die.
Our body might be compared to a company that
has been doing business successfully for decades. Suddenly the managers stop
hiring and training new staff, stop repairing and replacing machines and stop
maintaining and rebuilding the premises.
Soon the business will start to
deteriorate. But why did all those managers change their successful policies?
That question is similar to the one facing biologists who study aging. In aging
research, one of the great mysteries is trying to understand why cells stop
replicating and start dying.
Aging has been called “the most
complex of all biological problems” after decades of effort; scientific
research has not revealed the cause of aging, much less found a cure. No
currently marketed intervention –none –has yet been proved to slow, stop or
reverses human aging. Although sensible diet and exercise may improve your
health and lower the risk of your dying prematurely from disease, nothing has
been proved to retard aging.
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