Life Extension Magazine September 2006
Omega-3 Fatty Acids Show Promise in Fighting Deadly Cancers
By Julius G. Goepp, MD
Owing to the limitations of conventional cancer treatments, a growing number of researchers have turned their attention to nutritional therapies that interfere with cancer cell propagation via different mechanisms. Among these promising therapies are omega-3 fatty acids, which exhibit a variety of striking biochemical effects that may be valuable in preventing and even helping to treat certain cancers.1-3
For example, researchers have uncovered remarkable evidence that these fatty acids may impede cancer cell proliferation, potentially preventing it from spreading (metastasizing) throughout the body.4 For those who have already been treated for cancer, omega-3 fatty acids may even support recovery by preventing some of the debilitating complications that can follow surgery to remove cancer.5
In this article, we survey recent studies illuminating the promising role of omega-3s in fighting the deadly scourge of cancer.
Higher Omega-3 Intake Tied to Lower Cancer Risk
In light of limited success in treating deadly cancers, cancer prevention has become a major focus in the war on cancer. For more than three decades, scientists have accumulated evidence that diets rich in fish may have protective effects against cancer.
For example, people living in areas where high fish consumption is the norm, such as Japan and Norway, have markedly lower rates of cancer than people elsewhere in the world.6-8 By contrast, a “Western-style” diet that is relatively low in omega-3 fatty acids from fish oil is associated with rising cancer rates,9 possibly due to its content of saturated and trans fatty acids and its overabundance of omega-6 fatty acids.10
Omega-3 Fats Induce Varied Cancer-Preventive Effects
Scientists are now beginning to understand the specific mechanisms by which omega-3 fatty acids may help prevent cancer. For example, these protective fats alter genetic signaling in cells, preventing them from becoming cancerous in the first place.11 Omega-3 fats may also “reprogram” damaged genes so that they are no longer able to contribute to the initiation of cancer.12 Furthermore, omega-3 fatty acids reduce the production of inflammatory molecules that are considered vital in the initiation and progression of cancer.13,14 In fact, these essential fats work to “switch off” production of certain molecules needed for cancer cell growth,13,15 while “switching on” genes that cause cells to die before they can begin to form full-blown tumors.16
Omega-3 fatty acids may also fight cancer by promoting a healthy balance of fatty acids in the body. Omega-6 fatty acids, which are found in foods such as vegetable oils, eggs, and poultry, are very common in the American diet. However, an abundance of omega-6 fats relative to omega-3 fats can set the stage for cancer as well as heart disease.17 While omega-6 fats contribute to the production of pro-inflammatory compounds, omega-3 fats help produce anti-inflammatory compounds. Thus, an imbalance of omega-6 relative to omega-3 fatty acids contributes to inflammation. Omega-3s can counteract many of the effects of omega-6 fatty acids, so that anti-inflammatory compounds predominate in the body.18 Suppressing inflammation may prevent many deleterious health effects, including cancer formation.
Comparing the effects of omega-3 to omega-6 fatty acid intake, scientists have noted lower cancer risks with higher omega-3 intake, and higher cancer risks with greater omega-6 intake.19,20 Supplementing with moderate amounts of omega-3 fatty acids may thus be a sensible approach to tipping the scales away from cancer development.
Omega-3s Fight Cancer in Laboratory and Animal Studies
Omega-3 fatty acids have shown impressive effects against laboratory models of cancer. Two of the most common of the omega-3 fatty acids, eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), have prevented the progression (continued growth) of breast and prostate cancer cells in both laboratory and animal studies.21,22 Furthermore, omega-3 fatty acids appear to inhibit the appearance of receptors on the surface of cells that are needed for tumor cells to proliferate and spread (metastasize) to other tissues.4,23,24
Supplementation with omega-3 fatty acids may also help fight cancer by preventing angiogenesis, the formation of new blood vessels needed to fuel the growth of tumors.25 Inhibiting angiogenesis can stop or slow the growth of cancer cells. Scientists believe that it is the anti-inflammatory effect of omega-3 fatty acids that enables them to prevent angiogenesis.26,27 Although several pharmaceutical agents for fighting angiogenesis are currently under investigation, the dramatic influence of omega-3s in preventing angiogenesis, coupled with their excellent safety profile, could make them a first-line therapy in the fight against cancer proliferation.28
Omega-3s Show Potent Effects Against Prostate Cancer
Population studies suggest that dietary consumption of omega-3 fatty acids may have especially powerful effects in reducing the risk of prostate cancer.29,30 Furthermore, one study found that deaths from prostate cancer were lowest in populations that consumed higher quantities of foods containing omega-3 fatty acids.31
In an intriguing study published earlier this year, arachidonic acid, an omega-6 fatty acid, was found to increase the proliferation of malignant prostate cells, thereby increasing the risk of advanced prostate cancer. Remarkably, however, this effect was dramatically reversed by administration of the omega-3 fatty acid EPA.32
A notable study in animals showed that increased consumption of omega-3 fatty acids interfered with prostate tumor growth, while omega-6 consumption increased tumor growth. The research team found that omega-3s decreased the proliferation of cancer cells by causing them to naturally self destruct, or undergo apoptosis. Additionally, omega-3 fatty acids led to a decrease in prostate-specific antigen (PSA) doubling time, an important measure of disease progression and prognosis. In sum, these findings suggest that dietary consumption of omega-3 fatty acids may decrease the growth of prostate tumors and promote improved clinical outcomes.33
Omega-3s May Prevent and Inhibit Growth of Breast Cancer
Omega-3 fatty acids likewise show promise in fighting deadly breast cancer. Population studies examining the relationship between diet and cancer have found that higher dietary omega-3 content is associated with a lower incidence of breast cancers in various populations.1,3,34
Studies in animals and in the laboratory provide clues to how omega-3 fats may help avert breast cancer. In an animal model of human breast cancer, animals consuming a diet rich in omega-3 fatty acids had a dramatic 40% increase in the activity of a natural cancer-suppressing biochemical compared to animals that consumed a diet rich in omega-6 fats. Furthermore, tumors from the omega-3-fed group expressed elevated levels of a gene that helps induce self destruction, or apoptosis, in cancer cells. When scientists applied EPA and DHA to breast cancer cells grown in the laboratory, their growth was inhibited by 20-25%, and the cells displayed physical characteristics suggestive of their imminent death.16
In the laboratory, omega-3 fatty acids have reduced the growth of breast cancer cells. Researchers noted that by regulating genes that are involved in cellular reproduction, the omega-3 fats prevented the cells from exhibiting the uncontrolled growth that characterizes cancer cells.35
Furthermore, omega-3 fatty acids suppress the appearance of a certain growth factor receptor on cells that is associated with poorer clinical outcomes from breast cancer.36