Dave Asprey

Super Human


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it’s helpful to look at epigenetics, the science of how the environment in and around our bodies influences genetic expression, and how these changes are passed down from generation to generation. A 2018 review from leading stem cell researchers found that mitochondrial epigenetic mechanisms influence cell fate, cell division, cell cycle, physiological homeostasis, and even pathologies.4 In other words, your ancestors’ environment controls the mitochondria in your cells. And of course problems with those important cell functions can lead to every one of the Four Killers.

      As you read in chapter 1, mitochondrial DNA can become damaged when excess free radicals are present. Damage to mitochondrial DNA from free radicals causes deletions in the mitochondria’s genetic code. The damaged mitochondria produce energy inefficiently, generating huge amounts of additional free radicals and less of the energy that you would rather put toward your Super Human efforts. And as we know, damaged mitochondria generate inflammation and accelerate aging throughout the body.

      Remember, this cycle all started with an excess of free radicals, which are created by … dysfunctional mitochondria! So the more efficient your mitochondria, the less likely you are to suffer damage to your mitochondrial DNA, regardless of the genetic code you inherited from your parents. This is one of many reasons my anti-aging protocol focuses so heavily on making sure my mitochondria are running like rock stars for the long term.

      PILLAR 3—ZOMBIE CELLS

      Death-resistant cells, aka senescent cells, are cells that won’t die when they’re worn out, and they are a major focus of anti-aging research today. These cells no longer divide or function properly. These cells literally become dead weight. They do not function, yet they persist and secrete inflammatory proteins, causing all the problems that stem from chronic inflammation,5 including an increased risk of the Four Killers. Even worse, the mitochondria in senescent cells become dysfunctional and release huge amounts of reactive oxygen species. This is called senescence-associated mitochondrial dysfunction (SAMD), and it will age your body very quickly.6

      Over time, you gain more and more senescent cells, and the accumulation of the damage they create is a major cause of aging and disease. For one thing, when you have too many zombie cells in your tissues, your body becomes less efficient at responding to the hormone insulin. This is the definition of insulin resistance, which as we discussed earlier is a precursor to type 2 diabetes. Zombie cells also lead to an increase in visceral body fat, the type of fat that is stored around important organs in the abdominal cavity and is associated with an increased risk of many diseases, particularly type 2 diabetes.

      Zombie cells also contribute to many symptoms of aging that won’t kill you but will make your later years a lot less comfortable. For instance, doctors have known for years that patients who need knee transplants have excess senescent cells in their knee cartilage. In fact, injecting just a few senescent cells into your knees can actually cause arthritis.7 Did senescent cells in my joints cause my arthritis when I was fourteen? Possibly.

      Some senescent cells are easy enough to kill off. Others persist like a Netflix binge of The Walking Dead. Perhaps the most damaging types of zombie cells are immune cells. Remember, when you get a cut or an infection, your immune cells proliferate to promote rapid healing. Once you have healed, those extra immune cells are supposed to die off. When they don’t die, they inhibit your immune system’s ability to respond to new infections or injuries. This is one reason the immune system usually becomes weaker as we age. Talk about not dying—pneumonia and the flu together are the eighth leading cause of death in the United States and are both much more common and deadly in people over sixty-five. This is in part because of senescent cells weakening the immune system.

      The good news is that there are many things you can do to prevent damage from zombie cells. One of the most important is to keep your cell membranes strong so the cells can function well for as long as possible. I take a supplement comprising calcium, magnesium, and potassium salts of amino ethanol phosphate (AEP)—which helps to support healthy cell membrane function.

      The common diabetes drug metformin is also believed to kill senescent cells. In studies, metformin has been shown to alleviate a range of age-related disorders in animals and humans, including metabolic dysfunction, cardiovascular disease, cancer development, and cognitive dysfunction.8 In elderly humans, it has been shown to increase life-span by an additional five years.9 Studies on mice show that these effects stem from reduced cellular senescence and fewer free radicals.10

      Another exciting zombie killer is rapamycin. This drug inhibits a growth pathway called mammalian target of rapamycin (mTOR), which is responsible for regulating critical cellular functions such as cell growth, cell death, cell proliferation, and autophagy. Inhibiting mTOR appears to prevent the growth of senescent cells. In mice, rapamycin increases life-span, improves immune response, delays tissue loss, alleviates frailty with age, and decreases risk of heart failure, cancer, and cognitive impairment.11 Not bad. Some doctors have quietly been using it as an anti-senescence drug since 2015.

      I’m currently planning to experiment with taking rapamycin intermittently. It is not without risk—as we’ve discussed, any time you take a drug that accelerates cell turnover, there is a risk of accelerating cancer cell growth. In a couple more years, we’ll know more about the risk-reward ratio, and it will be a lot more affordable. I’m always happy to be a guinea pig, and cutting-edge anti-aging people are using it today. However, unless you’re in desperate straits, this is one hack you might want to hold off on for a little while as new research comes in.

      And besides, there are other more affordable and more accessible natural compounds for fighting zombie cells. My favorite is fisetin, a polyphenol found in seaweed and strawberries. One study showed that high doses of fisetin could kill up to 50 percent of senescent cells in a particular organ.12 While research on how to use fisetin to most effectively destroy zombie cells isn’t complete, research indicates that it is a cognitive enhancer.13 This is likely thanks to its direct antioxidant activity and ability to increase levels of other antioxidants in your cells. More antioxidants equals less oxidative stress and more energy throughout the body, including your brain!

      It’s not uncommon for researchers to discover that traditional herbs and plant compounds that have been used for thousands of years have anti-aging properties. A prime example is the Japanese herb ashitaba, which is available as a tea or powder and helps prevent zombie cells. It is traditionally used to treat high blood pressure, hay fever, gout, and digestive issues, but researchers recently discovered a compound in the plant called dimethoxychalcone (DMC—no relation to the famous rappers), which slows senescence. In worms and fruit flies, DMC increases life-span by 20 percent.14 We don’t know yet if it will have the same impact on humans, but it may be worth trying this tea to help with one of the Seven Pillars of Aging. I do.

      Finally, there’s piperlongumine (PPL), a pepper root extract that’s commonly used in Ayurvedic medicine. It looks promising for reducing senescence, but this knowledge is so new that researchers don’t yet understand the mechanism of action.15 PPL may also have cancer-fighting properties, too, although research hasn’t yet confirmed that benefit.16 It is likely safe to use, but taking it all the time or taking high doses could put a load on the liver. If you do decide to use PPL consistently, your body might have a reduced capacity for detoxing17—so it’s a good idea to take it for a limited period (one to two months) in conjunction with a liver-supporting supplement like glutathione.

      It boils down to this: If you don’t want to die, you must make sure your cells do die when they’re supposed to and stay alive when they’re supposed to.

      PILLAR 4—CELLULAR STRAITJACKETS

      The space in between your cells contains a network of proteins called the extracellular matrix, which protects your tissues from stress, trauma, and even gravity while allowing them to do their jobs. Visualize a perfect wobbling bowl of Jell-O. Without the matrix, you’d just have weird red liquid. Now imagine that same bowl of Jell-O, but so hardened that it won’t wobble and you can’t even spoon it. That’s what anti-aging scientists call extracellular matrix stiffening.