Life Extension Magazine April 2009
Enhanced Antioxidant Protection Against Heart Disease, Cancer, Allergies, and More
By Julius Goepp, MD
News of the disease-protective and longevity benefits of red wine has grabbed headlines around the world during the past few years. Red wine contains a number of beneficial polyphenols, such as the much-publicized resveratrol as well as quercetin1—a compound that is now also making news of its own.
Long known for its anti-inflammatory and anti-allergic effects,2,3 recent scientific breakthroughs reveal that quercetin may help promote longevity by mimicking the effects of caloric restriction.4,5 Furthermore, this powerful antioxidant demonstrates multifaceted protective effects against cardio-vascular disease, metabolic syndrome, and even cancer.2,3
While quercetin can be obtained through red wine and other dietary sources such as apples, onions, grapefruit, tea, green vegetables, and beans,6 highly purified supplements make it possible to acquire the bio-logically meaningful doses that have shown promise in tightly controlled studies. In the words of the German nutrition expert Professor Stephan C.
Bischoff, “Quercetin is a most promising compound for disease prevention and therapy.”7 Let’s take a look at some of the compelling evidence that has accumulated over the past few years for quercetin’s role in health management and disease prevention.
Anti-Inflammatory and Anti-Allergy Effects
At the core of most of quercetin’s remarkable properties is its ability to modulate inflammation. Since we now understand that inflammation is involved in virtually every chronic human disease and many acute ones—having an inflammatory modulator like quercetin in our armamentarium is likely to prove very useful indeed.
Korean researchers in 2007 showed how quercetin inhibits the production of inflammatory cytokines by blocking the effects of the powerful cellular mediator NF-kappaB, long associated with both cancer and chronic inflammatory conditions.8
Quercetin’s anti-inflammatory effects may arise in part from its inhibitory effects on the inflammation-producing enzymes cyclooxygenase (COX) and lipo-oxygenase (LOX). This in turn leads to a decrease in inflammatory mediators such as prostaglandins and leukotrienes.2,9 Pharmaceutical agents that block the COX enzymes are often used in the management of painful conditions like arthritis, while LOX inhibitors are employed in the management of asthma.
Additionally, quercetin exerts anti-allergy and anti-inflammatory effects by helping prevent the release of histamine from mast cells and basophils, thus acting as a natural antihistamine.2 This is similar to the mechanism of action of the drug cromolyn, which is used to manage allergy-related asthma.
Researchers in both Brazil10 and Korea11 protected animals from fatal allergic reactions to common food allergens by pre-treating them with quercetin in oral or inhaled forms.
Quercetin’s ability to prevent allergic effects has tremendous implications for the treatment and prevention of asthma and bronchitis, conditions for which quercetin-rich foods have had long traditional roles.12 Several studies since 2007 have shown that animals pre-treated with quercetin or related compounds have dramatically reduced reactions to chemicals that trigger asthma attacks.13-15 In a dramatic, eye-opening study in 2008, Korean researcher Hee Moon compared inhaled quercetin head-to-head with prescription asthma drugs in guinea-pigs.16 Remarkably, the nutrient-derived quercetin treatment reduced airway resistance (difficulty breathing) more than the adrenaline-like drug albuterol, and had equivalent effects to the anti-inflammatory cromolyn as well as the potent steroid dexamethasone.
In a form of epidemiological detective work, nutrition scientists from Michigan State University explored the impact of dietary flavonoids such as quercetin in their more general roles as systemic anti-inflammatory agents.17 Basing their work on knowledge that intake of certain foods can lower levels of the inflammatory risk factor C-reactive protein (CRP), they went looking for the most potent food components, studying more than 8,000 adults. They found that higher flavonoid intake was associated with lower CRP levels—and quercetin headed the list of specific flavonoid compounds that had the strongest protective effect. Since elevated CRP levels are associated with numerous disease states such as obesity, heart disease, and lupus, this provides compelling reason to explore quercetin’s potential for preventing death and disability from a host of major killers.
Quercetin is one of nearly 200 beneficial compounds found in garlic,18 which has been used for millennia in treating and preventing infectious disease such as viral syndromes.19 Indeed, modern science confirms quercetin’s benefits in helping fight off viral invaders.
In laboratory studies, quercetin has been found to reduce the replication and infectivity of numerous viruses, including respiratory syncytial virus (a common cause of children’s upper respiratory infection) and parainfluenza virus type 3.2
Italian researchers just last year showed that they could use a quercetin-rich extract to up-regulate the antiviral immune response in cells infected with herpes viruses.20 Additionally, an animal study last year showed that supplementation with quercetin helped protect mice against influenza infection following exercise-induced stress.21 These findings make quercetin an intriguing candidate for preventing and managing viral infections in susceptible individuals.
The rampant rise of overweight and obesity poses one of the greatest global health threats today. Scientists are now eagerly exploring quercetin’s potential as a means of controlling fat accumulation.
Fat, long considered to be an inert, biologically uninteresting tissue, is now known to be a virtual beehive of metabolic and endocrine activity, producing myriad hormones, inflammatory cytokines, and other molecules that influence health for better or for worse.22 Fat tissue mass is essentially the product of new fat cells, their accumulation of fat triglycerides, and their programmed death by the process of apoptosis.23 Each of these processes can be affected by various natural dietary components, and as University of Georgia nutritionist Srujana Rayalam recently observed, “Therapy employing compounds that target different stages of the adipocyte [fat cell] life cycle might prove beneficial for decreasing adipose tissue volume by inducing apoptosis or by inhibiting adipogenesis [fat accumulation] or both.”23 What is so exciting about quercetin is recent evidence that this flavonoid, alone or in combination with resveratrol and genistein, is capable of exerting just such multiple effects directly on fat tissue!
Quercetin inhibits fat accumulation in maturing human fat cells in culture, for example, while also suppressing the maturation of new fat cells and simultaneously triggering apoptosis (programmed destruction) in existing fat cells.24,25 Quercetin actually blocks the uptake of glucose from the blood, depriving fat cells of the raw material they need to manufacture and accumulate fat molecules.26 In remarkable work published in mid-2008, the University of Georgia group found that while they could block fat cell production and enhance fat cell death dramatically using either quercetin or resveratrol (another powerful flavonoid) alone, when they used the two in combination they decreased lipid accumulation in cultured fat cells by nearly 70%, while increasing fat apoptosis by a whopping 310%!27
Just a few months later, the same research team found that resveratrol and genistein synergize with quercetin to decrease lipid accumulation in human fat cells. While genistein, quercetin, and resveratrol decreased lipid accumulation in fat cells by 17%, 20%, and 17%, respectively, the combination of all three agents decreased lipid accumulation by an impressive 80%.25
Studies in animals lend support to the potential anti-obesity effects of quercetin. In mice fed a high-fat diet, quercetin produced a transient increase in energy expenditure,28 while another study showed that high-dose quercetin supplementation was associated with reduced body weight gain in obese, insulin-resistant mice.3
It’s no surprise then that quercetin—alone or in combination with other nutraceuticals—is drawing the attention of researchers searching for novel strategies for fighting obesity via numerous mechanisms.
Increased dietary intake of flavonoids—particularly from quercetin-rich foods—has been linked with decreased heart disease mortality and decreased stroke incidence.2 In 2000, Spanish scientists showed that red wine, laden with quercetin and related antioxidants, prevented activity of inflammation-promoting NF-kappaB in human volunteers, providing a big part of the explanation of how red wine reduces cardiovascular mortality.29
In 2004, British researchers demonstrated that humans who took quercetin supplements had substantially reduced platelet aggregation, suggesting that another of quercetin’s cardiovascular health benefits was related to a reduced risk of clotting.30 These researchers later showed that dietary ingestion of quercetin from onion soup also helped inhibit platelet aggregation.31 And in a study of 30 men who already had coronary heart disease, Greek cardiologists showed that a red grape polyphenol extract rich in quercetin caused an increase in flow-mediated dilation of major arteries, a potent indicator of improved endothelial health.32
The natural next step was to study quercetin supplements alone and their effect on blood pressure, a study undertaken at the University of Utah in 2007.33 They studied 19 patients with pre-hypertension and 22 with stage 1 (early) hypertension, supplementing them with placebo or 730 mg quercetin/day for 28 days. There was no effect on the pre-hypertensive patients, but the hypertensive group enjoyed reductions in both systolic and diastolic blood pressure (average 7 mmHg and 5 mmHg reductions, respectively)—meaningful changes that lower vascular disease risk.
In 2008, a randomized, placebo-controlled crossover trial in 12 healthy men showed biochemical evidence of improved endothelial function (such as augmentation of nitric oxide status) with as little as 200 mg/day of quercetin.34
Together, these effects point to an important role for quercetin in protecting cardiovascular health.
Metabolic Syndrome and Diabetes
Chinese folk medicine has long used a quercetin-rich plant called Euonymus alatus to treat type 2 diabetes.35 Not surprisingly, modern research is finding that quercetin may hold applications in managing metabolic syndrome—a cluster of risk factors that is associated with an elevated risk of diabetes.
Spanish researchers publishing in the journal Obesity showed in 2008 that quercetin given to obese, insulin-resistant rats produced a reduction in systolic blood pressure, plasma lipids, and insulin levels, while improving the over-aggressive inflammatory status these rats develop.3 The higher of two experimental quercetin doses also led to increased expression of endothelial nitric oxide synthase—the enzyme that generates blood vessel-protective nitric oxide. These findings suggest that quercetin may protect against numerous components of the common and deadly metabolic syndrome.