Exciting new research shows that we may be able to extend our lives dramatically.
The life span of the average American has increased by more than 60% in the last 100 years, and some experts believe that’s just the beginning. It might be possible for people living today to extend their lives to 120 years or even more. How is this possible?Two landmark discoveries: Genetic researchers have identified structures, known as telomeres, that appear to control how long cells live and how healthy they remain. Along with that, researchers have identified an enzyme, called telomerase, that maintains the integrity of these structures. These two discoveries could be the key to a much longer life.
What you need to know…
TELOMERES AND LONGEVITY
Every cell in the human body contains 46 strands of DNA. These strands (chromosomes) contain all of our genetic information—for example, the color of our hair and how tall we are as well as our propensity for certain diseases.
As a person ages and undergoes decades of cell divisions, there’s a shortening of the telomeres that help keep chromosomes intact. With time, the telomeres get so short that cells can no longer survive—and, eventually, we die.
Research shows that the length of a person’s telomeres is crucial. For example, people who are born with (or develop) relatively short telomeres tend to have more health problems, and die sooner, than those with longer telomeres. In a study of 780 patients with heart disease, researchers found that those with the shortest telomeres had twice the risk for heart failure and death after 4.4 years as those with the longest telomeres. Shortened telomeres have also been linked to cancer, osteoarthritis and Alzheimer’s disease.
AN ANTIAGING PLAN
When cells are damaged—due, for example, to free radicals, inflammation and excessive alcohol intake—they divide more frequently than aging healthy cells. This rapid division accelerates the rate at which telomeres shorten—and, potentially, shortens your life.
This is where telomerase, the enzyme that repairs and maintains the length of telomeres, comes into play. And the discovery of telomerase was so important scientifically that it was the basis for Carol Greider, PhD, of Johns Hopkins University School of Medicine, to be awarded the 2009 Nobel Prize in Physiology or Medicine, along with two other researchers.
Although telomerase won’t keep cells alive forever, it does seem to greatly extend their lives. For example, in a laboratory study, scientists inserted a telomerase-producing gene into skin cells with short telomeres. These cells were then grafted onto the skin of mice, while untreated skin cells were grafted onto different mice. Result: The skin grown from telomerase-containing cells looked young…skin grown from cells without telomerase was wrinkled and looked old.
Fortunately, a growing body of evidence suggests that you may be able to slow the rate at which your telomeres shorten—and, in some cases, slightly increase their length—by minimizing cell damage with certain nutrients.
While it is preferable to get one’s nutrients from food sources, it is not practical for most people to get desirable levels of the following…*
Fish oil. A study in The Journal of the American Medical Association that followed 608 heart patients for five years found that those who consumed the most fish oil had the longest telomeres. This may be the reason that people who routinely take fish oil supplements have lower rates of heart disease, arthritis and other chronic diseases.
What’s behind fish oil’s health-promoting effects? As an adaptogen, fish oil is a substance that helps maintain the body’s normal functions. It has different effects in different parts of the body and on different cells. For example, fish oil inhibits telomerase in cancer cells (which shortens the life span of the disease-causing cells) but increases it in healthy cells (which helps them live longer).
Antiaging dose: 1,500 mg of omega-3 twice daily with meals. Within this total, aim for 900 mg of eicosapentaenoic acid (EPA) and 600 mg of docosahexaenoic acid (DHA).
Acetyl-L-carnitine (ALCAR). This supplement reduces free-radical damage to cells. It also repairs mitochondria, the structures within cells that produce energy. This is important because damaged mitochondria produce large amounts of free radicals, which accelerate cell turnover and damage to telomeres.
Every cell in the body has mitochondria, but cells that require the most energy to function, such as those in the brain, have the most—about 1,000 mitochondria per cell. ALCAR supplements may reduce mental declines from aging and from Alzheimer’s disease or chronic cerebral ischemia, a condition that reduces blood flow to the brain.
Antiaging dose: 1,000 mg twice daily.
Anthocyanidins. A type of flavonoid derived from berries, such as blueberries and bilberries, anthocyanidins have a higher antioxidant capacity than either vitamin E or vitamin C. Reducing oxidation is among the most effective ways to reduce cell damage and telomere shortening.
Antiaging dose: 80 mg of bilberry extract twice daily.
N-acetylcysteine (NAC). This amino acid is metabolized in the body into a substance that’s used to manufacture the “master” antioxidant, glutathione. Glutathione improves the body’s ability to remove damaged/dying cells. When this process is working well, there’s a slower shortening of the telomeres.
Antiaging dose: 600 mg twice daily.
Vitamin D. It’s among the most important nutrients for health and longevity. Some researchers speculate that it increases levels of telomerase—and it clearly reduces telomere shortening.
British researchers who studied more than 1,000 sets of female twins (whose average age was 49 and whose telomeres had been the same lengths at birth) found that those with higher levels of vitamin D had longer telomeres. The difference was dramatic—the telomeres in women in the higher vitamin D group showed the equivalent, in length, of five years less aging.
Antiaging dose: 2,000 international units (IU) to 5,000 IU daily, depending on your starting blood level. A blood test for vitamin D is recommended before taking these supplements. Work with your doctor to determine the optimal vitamin D level for you.
SHOULD YOU GET TESTED?
Your doctor can order a blood test, called polymerase chain reaction (PCR), that will determine the length of your telomeres and compare it to what’s normal for your age. The test can be used to track, over time, how much your telomeres are shortening. Typical cost: About $350. Insurance will not cover the cost.
However, telomere testing is not routinely used because there’s not a lot you can do with the information beyond improving your lifestyle, which you should do anyway. In the future, as more products and medications are developed that can significantly lengthen telomeres, the test could be used to determine whether the dose/medication that you’re using is right for you.
*Consult your doctor before starting this regimen. Some of these supplements may interact with blood-thinning, diabetes or other medications.
Sources: Michael Fossel, MD, PhD, and David Woynarowski, MD, coauthors of The Immortality Edge: Realize the Secrets of Your Telomeres for a Longer, Healthier Life (Wiley). Dr. Fossel is a retired clinical professor of medicine, founding editor of the Journal of Anti-Aging Medicine and the author of a textbook on telomeres and aging. Dr. Woynarowski, who is board certified in internal medicine and antiaging medicine, is in private practice in Reading, Pennsylvania, and is a retired associate clinical professor of internal medicine.
Listing Details
Publication
Bottom Line Health
Original publication date
March 1, 2012
