Apple Polyphenols and Longevity

In the last year alone, scientists from three different laboratories have published studies that demonstrate how polyphenol molecules derived from apples extend life span in various species by as much as 12%.

These researchers are unraveling the various mechanisms of action that give apple polyphenols such promise as anti-aging nutrients.

Initial findings show that apple polyphenols modulate multiple signaling molecules to delay the onset of age-related disorders. They may also mimic the actions of calorie restriction, a known antiaging technique. One polyphenol, phloridzin, which is heavily concentrated in the skin of the apple, also potently suppresses several processes leading to glycation, another major contributor to aging.

Scientists are discovering why an apple a day may help keep the doctor away.

Recent Longevity Research

In three different labs, scientists conducting initial investigations found that the use of apple polyphenols increased the life span of various species by 10 to 12%.

While these studies are just the beginning of understanding how apple polyphenols contribute to longevity, they all found remarkably consistent results, despite being conducted in three very different species.

The common yeast, S. cerevisiae, is often used in laboratory experiments as a model for understanding the biology of higher organisms because of the great similarity of basic life processes. When scientists added the unique apple polyphenolphloridzin to yeast cells in culture, they found that treated cultures lived an average of 2. generations longer than control cultures.

A closer look revealed why. When yeast cultures were treated with apple polyphenols, it toughened the cells’ resistance to oxidative stress, both by inhibiting production of harmful reactive oxygen species and also by ramping up gene expression of vital natural cellular antioxidant systems. Furthermore, the yeast cultures increased expression of sirtuins, molecules known to trigger calorie restriction-like effects in multiple tissues, contributing to longevity.

Another common model of aging and longevity is the tiny worm known as C. elegans, which reproduces rapidly and succumbs to many of the same basic destructive processes as do humans. Treatment with apple polyphenols extended the life span of natural C. elegans by 12%. As with the previous experiment with apple polyphenols, activation of sirtuins’ calorie restriction-mimicking effects was evident.

Finally, apple polyphenols have been shown to extend by 10% the life span of the fruit fly, D. melanogaster, another commonly-used model of human biological processes and aging. Once again, the explanation lies in the activation of a suite of genes that produce natural antioxidant defense systems, and decrease of genes that contribute to death in older animals. Interestingly, in these more complex organisms, apple polyphenols also partially reversed early death and mobility impairment induced by a toxin. Loss of mobility is a common characteristic of aging shared across all animal species, and one which is attracting great scientific interest.

The discovery of such similar results, from three independent laboratories using three different models of biological aging, means that the results are somewhat robust and may be applicable to all living things, humans included. But these encouraging studies only scratch the surface of how apple polyphenols function on multiple levels to delay the aging process and reduce lethal degenerative diseases.

The laboratory investigations discussed above do shed light on why large epidemiological studies show that people who consume polyphenols in the highest quantities are protected against conditions such as cancer, cardiovascular disease, and other conditions that are generated by oxidant stress and inflammation. For example, those who consumed the largest amounts of flavonoids (found in apples and other fruits) were shown in one study to have up to a 31% reduction in total mortality. When intake of apples specifically was examined, that study showed as much as a 43% reduction in death from heart attacks specifically.

Phloridzin, A Unique Polyphenol

Apples, and especially their skins, contain many of the polyphenols found in other fruits, albeit in considerably higher concentrations. Apple skins also contain a polyphenol called phloridzin. Phloridzin is especially active against glycation, one of the most common, preventable, and reversible causes of aging.

Phloridzin attacks glycation and its destructive effects at many different levels. For example, almost as soon as you consume a carbohydrate-containing meal that could cause a dangerous post-meal spike in blood sugar, phloridzin goes to work. Studies show that phloridzin inhibits glucose uptake by 52%.

Phloridzin accomplishes this feat through two distinct mechanisms in the small intestine. First, it inhibits glucose uptake from the intestine’s interior into its lining cells. Subsequently, phloridzin blocks the active transport of glucose out of those intestinal lining cells into the bloodstream. The net effect is fewer glucose molecules leaving the intestine to contribute to blood sugar levels.

Some sugar, of course, is inevitably absorbed, and is responsible for formation of the dangerous carbonyl molecules that react with proteins and DNA to form advanced glycation endproducts, or AGEs. Phloridzin prevents formation of those carbonyl compounds; it also traps any remaining carbonyls that are produced, preventing them from reacting with more vulnerable body molecules. Phloridzin also protects cells from the inside out. In type 2 diabetes, cells don’t efficiently take up glucose, producing dangerous blood sugar elevations that cause so much destruction. But inside certain cells, there’s too little glucose, contributing to energy depletion and poor function. One consequence is cell membrane disruption that contributes to early cell death and ultimately organ dysfunction. Phloridzin protects those energy-depleted cells’ membranes and prevents their death, helping to preserve tissue and organ function.

The sum of all these effects is prevention of several major causes of aging, including blood glucose elevations and lipid metabolism disturbances. The ultimate effect, now demonstrated in laboratory models of aging, is an extension of the life span.

Apple Polyphenols’ Unique Fat Management

Various types of fats not only add pounds to our body but can destroy our health by fostering degenerative diseases such cardiovascular disease, diabetes, and cancer. Getting control of how your body handles fat is an important step in reducing your risk of an early death.

Apple polyphenols demonstrate remarkable capabilities of fat management, as shown by a wealth of human, animal, and laboratory studies in two distinct areas.

The first is in where and how your body stores its fat.

Fat in your organs, and especially in the lining of your abdomen (known as visceral fat), is a major risk factor for cardiovascular disease, diabetes, and cancer, as part of the metabolic syndrome. Apple polyphenols have been shown to reduce visceral fat accumulations in human studies.

In one study, 45 overweight or obese adults were given 600 mg/day of apple polyphenols, and their weight and body fat distribution were tracked for 12 weeks. In that time the control patients gained weight, while supplemented patients lost nearly a pound. Of greater importance, the apple polyphenol-supplemented patients lost about 2 square inches of visceral fat area as measured by CT scans, while control patients gained those same 2 square inches of visceral fat, and about 4 square inches of fat overall.

A similarly-designed study using the same 600 mg/day dose followed patients for 16 weeks. It demonstrated a 9.4 square-inch loss of visceral fat in supplemented patients, an impressive 8.9% of their baseline area.22 Meanwhile, placebo patients gained 3.3 square inches, or 3.3% of their baseline amount.

Detailed animal studies demonstrate that loss of total and visceral fat can be at least in part attributed to improved fat utilization by energy-requiring tissues such as muscle, helping them to “burn” fat more effectively while increasing muscle strength.

The second important area of fat management has to do with how your body absorbs triglycerides and cholesterol from your diet, and in what form it transports those fats to your tissues.

Animal studies show that apple polyphenols slow triglyceride absorption from the intestine by blocking pancreatic lipase, an enzyme specifically required to break down triglyceride fats. Blocking pancreatic lipase causes some triglycerides to pass out of the body in the feces. Similar effects in humans could potentially lower total triglyceride levels. Apple polyphenols also block cholesterol absorption and interfere with production of the lipoprotein carrier molecules (LDL and VLDL cholesterol) that are associated with cardiovascular risk.

The effects of lowered intestinal fat absorption are lowered plasma levels of LDL, VLDL, and triglycerides (the “bad” fats) by as much as 70%. Apple polyphenols also reduce the deposition of fats in organs and in the linings of arteries, where atherosclerosis gets started. Animals fed apple polyphenols had up to a 17% reduction in the size of atherosclerotic lesions found in their arteries.

Apple polyphenols not only lower plasma total and LDL cholesterol, but animal studies show that they have the potential to raise HDL cholesterol levels, further protecting from atherosclerosis. A human study providing 1,500 mg/day of concentrated apple polyphenols demonstrated a modest rise in HDL cholesterol levels, with significant drops in LDL cholesterol.

One reason that HDL cholesterol is protective is that it is rich in natural antioxidant molecules known as paraoxonases. Apple polyphenols can increase paraoxonase activity by as much as 23%. That may explain why apple polyphenols inhibit dangerous lipid peroxidation, the inflammation-generating step that initiates atherosclerosis.

Finally, apple polyphenols lower cardiovascular risk by reducing the “stickiness” of platelets and vessel walls, helping blood slip more readily through arteries. That can prevent the formation of dangerous clots.

One cautionary note: Several human studies have failed to show much benefit from consumption of whole apples and even polyphenol-enriched apple juices. One study showed an elevation in triglyceride levels in men who ate whole apples daily for an extended period. The reasons aren’t entirely clear, but it is safe to say that the greatest benefits have been shown with concentrated polyphenols derived from apple skins only.

Apple Polyphenols Prevent Colon Cancer by Multiple Mechanisms

Colorectal cancer is the second leading cause of cancer-related deaths in the United States and the third most common cancer in men and in women. Apple polyphenols reach the colon in large concentrations, and they show great promise in reducing the burden of this common disease. Indeed, large-scale epidemiological studies show that those who consume larger amounts of apple polyphenols can cut their colon cancer risk by nearly 50%.

Apple polyphenols act by multiple mechanisms against multiple targets in the toxic environment of the colon. They reduce the substantial oxidant stress under which colon cells must survive, and they scavenge oxygen free radicals, a potent means of reducing cellular and DNA damage. They also enhance production of natural antioxidant enzymes that colon cells use to protect themselves.

Inflammation typically follows oxidant damage, and is a key event in promoting colon cancer. Apple polyphenols inhibit enzyme systems known as cyclooxygenase and lipoxygenase, both of which produce inflammatory cytokines. Apple polyphenols also enhance the rate at which your normal colonic bacteria produce the anti-inflammatory molecule butyrate from dangerous long-chain fats. Butyrate is natural protective element against colon cancer and inflammatory bowel disease.

Many colon cancers are triggered by ingestion of carcinogens in the diet; apple polyphenols promote expression and activity of a range of vital detoxification enzyme systems. Those systems are essential in preventing carcinogenic chemicals from further damaging cells.

Oxidation, inflammation, and toxins all ultimately produce damage to DNA, which is a first step in formation of cancerous cells. Apple polyphenols show powerful protection of colon cells’ DNA.

Even once a cancer has formed, animal studies have shown that apple polyphenols can slow or stop its growth through several mechanisms. They block the chemical receptors for a molecule called epidermal growth factor, needed by tumor cells to continue their development. Apple polyphenols have also been shown to reactivate tumor suppressor genes that have been switched off in cancerous cells, restoring their ability to regulate their growth safely. And they induce the cellular suicide mechanism called apoptosis, which is also often switched off in tumor tissues.

The end result of all these actions is to reduce the out-of-control growth typical of cancerous tissue. In the lining of the colon, where tumors begin, this is manifested by a reduction of up to 50% in so-called aberrant crypt foci, the pre-cancerous lesions often found on colonoscopy. And apple polyphenols reduce the numbers of actual pre-cancerous polyps by up to 42% and their growth rate by as much as 60% in animal models.

Apple Polyphenols Lower Blood Glucose, Prevent Glycation Damage

Even very small blood sugar elevations, especially those immediately following a meal, are now known to be a major cause of tissue damage, even in those who are not diabetic. Glucose, though a vital fuel for life, has substantial toxic effects on your body’s proteins over the long haul, producing damaging advanced glycation endproducts (AGEs). Once again, apple polyphenols can help.

Apple polyphenols, especially the unique molecule phloridzin, prevent uptake of glucose from the intestinal tract. They do this by inhibiting certain specific glucose transport molecules in the intestinal lining. Animal studies demonstrate significant reductions in overall blood sugar levels. One such study also showed that apple polyphenols completely abolished the after-meal surge of blood sugar levels that’s known to be so dangerous.

Apple polyphenols also act to block the formation of advanced glycation endproducts, protecting cells from their damaging effects and from the inflammation that can follow. Furthermore, apple polyphenols scavenge dangerous dicarbonyl molecules that promote glycation and accelerate aging.

Most Life Extension members take nutrients like carnosine, benfotiamine, and pyridoxal-5-phosphate to inhibit deadly glycation reactions, but as already described in this article, apple polyphenols have unique beneficial properties that extend beyond their anti-glycation effects.

Apple Polyphenols Boost Immunity, Fight Infection

Infections are all too often the cause of an untimely death in older people, even in today’s world of antibiotics. Apple polyphenols are powerful natural antimicrobial agents, and are showing great promise in arresting some of the most threatening infections.

Apple polyphenols bind to toxins produced by the bacterium Staph aureus, inactivating them and preventing their deleterious effects. Those effects include deadly conditions such as toxic shock syndrome and massive food poisoning, which is common. The polyphenols are also active against other common bacterial infections such as Pseudomonas and Bacillus species, and against so-called “atypical” tuberculosis infections.

The bacterium Helicobacter pylori is the cause of gastritis and stomach ulcers. Apple polyphenols inhibit not only the organism’s growth, but also its ability to bind to stomach lining cells, and its ability to promote inflammation. These effects have the potential to prevent recurrence of the bacterial infection and its results after conventional medical treatment.

Of greatest interest is the recent discovery that apple polyphenols can protect animals infected with the deadly H1N1 influenza virus, a potential cause of death among elderly people. Stressed animals with the flu died much sooner than did control animals, but those treated with apple polyphenols survived at much higher rates and lived longer.


Apples, and especially their skins, are among the fruits richest in the specialized molecules called polyphenols. Apple polyphenols, found in high quantities in the apple’s skin, exert powerful antioxidant, anti-inflammatory, and anti-glycation effects. Together, these effects combine to protect your body from many of the reversible consequences of aging. Compelling evidence exists for apple polyphenols’ ability to prevent, and even reverse changes that produce cardiovascular disease, cancer, elevated blood sugar, and even serious infections.

Since health conscious people today obtain a wide range of polyphenols (such as green tea and pomegranate extracts), a daily dose of 300 mg to 600 mg of apple polyphenols may be all that is needed to obtain desired benefits.

About Life Extension

Life Extensionists are people who believe in taking advantage of documented scientific therapies to help maintain optimal health and slow aging. The medical literature contains thousands of references on the use of antioxidant vitamins, weight loss supplements, and hormones that have been shown to improve the quality and quantity of life. Life Extensionists attempt to take advantage of this scientific information to enhance their chances of living longer in good health.
What Do FoodTrients Do?
Ai Anti- inflammatories

Reduce inflammatory process in cells, tissues, and blood vessels, helping to slow aging and reduce risk of long-term disease.

Ao Anti- oxidant

Prevents and repairs oxidative damage to cells caused by free radicals.

IB Immunity Boosters

Support the body’s resistance to infection and strengthen immune vigilance and response.

MB Mind

Improves mood, memory, and focus.

F Disease Prevention

Reduces risk factors for common degenerative and age-related diseases.