Another great article from Dr. Lopez that examines in objective detail what risks, if any, long chain fatty acids (the “fish oils” EPA/DHA would be in that category) present to the prostate. His prior article on fish oils can be found HERE.

Long-Chain Omega-3 Fatty Acids: Friend or Foe to Prostate?
More than meets the eye to recent controversy over omega-3 levels and prostate cancer risk—Lets take a closer look

Hector Lopez, MD, CSCS, FAAPMR

Author

A large-scale prospective case-cohort study evaluating plasma fatty acid levels and prostate cancer risk, published in JNCI (Journal of the National Cancer Institute) online ahead of print on July 10th, 2013 has created quite the stir amongst media, health care professionals, nutrition researchers, and the dietary supplement industry…Again! To quote the great Yogi Berra, “It’s like déjà vu, all over again.”
This recent study was led by Drs. Alan Kristal from the Fred Hutchinson Cancer Research Center, and Theodore Brasky of The Ohio State University Comprehensive Cancer Center in the USA as a follow up to their 2011 study. This new study analyzed data and blood plasma phospholipid status from men who participated in the SELECT (Selenium and Vitamin E Cancer Prevention Trial) trial from 427 participating sites across Europe, USA, Canada and Puerto Rico. Blood was analyzed for 834 “cases” diagnosed with prostate cancer (156 of which were high-grade), and an age-matched subcohort, comparison group of 1,393 all of which were selected from the 35,533 participants.

Without going into an in depth review of the study (beyond the scope or goal of this post), the men with the highest blood plasma levels of the long-chain omega-3 PUFAs (EPA, DPA, and DHA) were associated with increased risk for low-grade, high-grade and total prostate cancer (44%, 71% and 43% increased risk, respectively). Intriguingly, a higher omega-6 level (Linoleic acid) was associated with reduced risk of low-grade and total prostate cancer, but there was no dose response relationship. The totality of evidence suggests there is no significant relationship (positive or negative) between omega-6 status and prostate health.

A few salient points to consider here:

1) Within the prostate cancer cases, their plasma phospholipid fatty acid profile was divided into quartiles. The lowest risk group had < 3.68% tissue levels (plasma phospholipids) VS. highest prostate CA risk group being at > 5.3%. This is quite a narrow range of plasma phospholipid fatty acid concentration to draw conclusions from. Moreover, the mean EPA + DPA + DPA fatty acid % in plasma phospholipids was only 4.48% in controls (non-cancer group), and 4.66% in the total cancer case group. Again, an even narrower range from which caution must be taken before drawing sweeping or extreme conclusions and interpretation of this data. So, what does that mean for individuals who are supplementing actively with fish oil and simultaneously keeping vegetable oil LA (omega-6) intake down that typically walk around at 7-15% (who incidentally have lowest sudden cardiac death risk and lowest 25-year mortality rates)?

It is possible, that some biochemical scenario plays out where, with respect to prostate CA, you are better off either being real low (at which point your risk for cardiovascular morbidity & mortality goes up), or at the higher goal range of >8%? There is some interesting preclinical, mechanistic data showing that high levels of DHA increases expression of SDC-1 (a transmembrane proteoglycan) in prostate tissue. SDC-1 may help with mediating apoptosis (programmed cell death) of prostate cancer cells, by suppressing proto-oncogene (a normal gene that when mutated can cause cancer by deranging cell growth and differentiation mechanisms) signaling.

2) This is NOT a (RDBCT)…it isn’t even an open label “intervention-based” trial. Simply an epidemiologic, nested case-cohort based association. The SELECT study was not designed specifically to look at omega-3 fatty acid associations, a priori (from earlier knowledge). That simply means the original SELECT randomized, placebo-cotrolled clinical trial was not originally set up to answer the question of whether “Increased intake of long-chain omega-3 polyunsaturated fatty acids lead to increased rates of prostate cancer development.” Hence, that limits the “robustness” and “strength of causality assessment” of the data. Further, there was no mention in the study of dietary fish intake or fish oil supplementation. Is it possible that the sicker individuals began taking fish oil or increasing their fish intake in an attempt to improve their health? Again, it does not allow us to discern whether the “association” exists with fish oil supplementation vs. fish from food sources vs. particular type of fish [Salmon vs. Mackerel vs. Sardine vs. Cooked (Grilled, Baked or Fried) or Raw as in Sushi]. Could there be some xenobiotic or persistent organic pollutants acting as a carcinogen in one of these sources? After all, it is well established that certain heavy metals (e.g., cadmium, mercury), dioxins and PCBs are mutagenic and carcinogenic.

A few things stand out about the methods used to evaluate fatty acid status. First, the plasma phospholipid fatty acid assay is considered to be more representative of ACUTE and dynamic biomarker of omega-3 fatty acid intake by many experts in the biochemical analysis of fatty acids. Short-term factors such as a single meal or supplemental fish oil dose can increase plasma phospholipid omega-3 levels by over 2-fold within 6-10 hours. That is because this assay includes lipids found in the lipoprotein fraction of blood (such as chylomicrons, LDL subtypes, VLDL, etc.), not just in cell plasma membranes such as the omega-3 index (% of omega-3 fatty acids in RBC membrane). Erythrocyte (or Red Blood Cell) membrane fatty acid analysis is a more reliable biomarker of SUBACUTE omega-3 fatty acid intake, with stable values reflecting dietary intake over a 2-3 month period.
Let’s admit that this study utilized data mined from a very large, prospective study, with a large number of prostate cancer cases—this is a strength. The SELECT trial that this study was based on had a very good follow up and small amount of attrition. This minimizes the potential for a phenomenon we observe in research known as attrition bias (a kind of selection bias, where the subjects who dropout are discounted, effectively changing the characteristics of one comparison group vs. another that may lead to drawing inappropriate conclusions from the data/results).

3) Then, we do need to consider the question of whether there is “fire at the heart of this smoke” that could be attributable to some as yet undetermined mechanism? After all, there are at least 3 more large studies that support the findings of this study. However, there are also at least 3 other studies that conflicts with the current study showing an inverse relationship between long-chain n-3 PUFA tissue levels and prostate cancer risk. Keep in mind that cancer biology is incredibly complex with, not only many factors that contribute to risk, progression, etc., but also many of these very factors interact to create even more layers of complexity.
Having said that,

I have a few theories, including:

** In the case of prostate biology, immune “surveillance” of cellular oncoproteins play a much larger role in identifying and creating cytotoxicity and apoptosis (programmed cell death pathways) to keep these precancerous cells at bay.

** At certain levels of tissue n-3 concentration, there may be a physiologic/molecular environment whereby mitogenic/ oncogenic and cellular proliferative pathways are driven forward and, while tumor suppressive and differentiation pathways are inhibited. This scenario could promote tumorigenesis/ carcinogensis, especially in a scenario where there is just enough immune suppression to allow for this cellular activity to spiral out of control, without the typical safety mechanism and breaks that would limit DNA mutagenesis & damage.

** Lipid peroxides generated at the local prostatic tissue level may, in certain individuals, overwhelm their capacity to neutralize this oxidative stress. This scenario could theoretically lead to increased DNA damage, that increases potential to outpace DNA repair mechanisms and transform cells to loose cell growth/proliferation regulation.

** Could there be certain genotypes (nutrigenetic & epigenetic mechanisms) that increase susceptibility to the above theories? Given what we have learned from genome wide association studies (GWAS) in the last decade, this is certainly a possibility.

4) Interestingly, this association appears to be tissue specific. As opposite association (inverse relationships) exist for omega-3 status and other cancers, e.g., breast, colon, and possibly pancreatic.

5) There is interesting data that demonstrates what I would refer to as a “metabolic dissonance” in energy metabolism of prostate cancer cells. In stark contrast to cancers of other tissues, where metabolism becomes more heavily glycolytic (strong preference to using glucose for fuel during energy metabolism), prostate adenocarcinoma cells appear to switch toward greater beta-oxidation of fatty acids to drive its bioenergetic needs! This “metabolic dissonance” with respect to the unique physiology of prostate cancer could very well be a major factor leading to the observed association between long-chain omega-3 PUFA and prostate tumorigenesis in Brasky et al study.

6) Prostate cancer detection has increased dramatically over the last 10-15 years, not only due to the prevalence of PSA screening, but also lower threshold to biopsy has lead to increased diagnosis.  This is particularly the case with detection of microfoci of prostate malignant cells in smaller (lower volume) prostates…Hence, there is a greater probability of sampling malignant microfoci in smaller prostates. This is an aspect that was not controlled for (Hazard ratios in the study were not adjusted for this variable) in the Brasky et al study.

7) There is also robust evidence that contradicts and opposes the conclusions and interpretation of the Brasky et al data. For example, the work of Chua et al. (2013), Sorongon-Legaspi et al. (2013), Torfadottir et al. (2013), Chavarro et al (2008), Terry et al. (2001), Harvei et al (1997), and others show a protective effect of higher levels of tissue omega-3 fatty acid status, with lower prostate cancer risk and prostate cancer mortality.

8) It is also imperative to try adding context and maintaining perspective whenever faced with new information that may change behavior; or in this case, information that may change clinical management and dietary advice. Lets keep the following numbers in mind to add some more perspective, color and light to this data from a public health, and (from National Cancer Institute-Surveillance Epidemiology and End Results, and National Heart, Blood and Lung Institute-NIH):
Prostate Cancer- U.S. :

¬ Age-adjusted incidence rates (for all races) from 2006-2010 152/ per 100,000 men
¬ Age-adjusted death rates (for all races) from 2006-2010 23/ per 100,000 men
¬ Prevalence of prostate cancer diagnosis: ~2.6 million men on January 1, 2010
¬ Direct cost burden from prostate cancer in U.S. in 2010 ~$14 Billion
Cardiovascular Disease- U.S. :
¬ Age-adjusted death rates (for all races) from in 2008 244/ per 100,000 population (both men and women)
¬ Prevalence of cardiovascular disease diagnosis: ~82.6 million men in 2006
¬ Direct cost burden from CVD in U.S. in 2008 ~$218 Billion

9) Although the jury is still not out with respect to the relationship long-chain omega-3 PUFAs found in fatty fish and fish oil and prostate cancer risk, progression or severity, I believe the sheer numbers tell us what the lowest hanging fruit is relative to public health focus and resources. I do agree with the authors that prostate health history should be taken at least be taken into consideration, when weighing potential risk to benefit ratio of increasing long-chain n-3 PUFA intake.

10) As with so much in science, medicine, health and nutrition, the more data we have access to, the more questions arise. One burning question this study raises that is of interest to consumers, industry and health care providers—How would these findings change when evaluating specific dietary sources of long-chain n-3 PUFA (e.g., concentrated fish oil supplements vs. Sushi vs. Baked, Grilled or Fried fish)?

Overall, the benefits of increasing omega-3 status (and decreasing omega-6 over abundance) for most people outweigh potential risks. Stay tuned…but as always keep a cool head and try to avoid being drawn into dramatic, emotionally-charged and sensational headlines.

Hector Lopez, MD, CSCS, FAAPMR

Dr. Lopez is a board-certified specialist in physical medicine and rehabilitation, with a concentration in spine, sports and musculoskeletal medicine. He also has post-graduate training in nutritional biochemistry. An active researcher, speaker, author, and clinician, he is recognized for uniquely integrating the best available methods in the fields of musculoskeletal medicine, endocrinology and metabolism, regenerative medicine, exercise, and nutritional science. Dr. Lopez has been a founding partner and director of several integrative orthopedic, spine, and sports medicine facilities, and he is a principal and chief medical officer of the Center for Applied Health Sciences (CAHS), a multidisciplinary clinical research institute. Dr. Lopez is also co-founder of Supplement Safety Solutions (SSS), a Nutravigilance, quality assurance, medical monitoring, and regulatory consulting company. In addition, he is a consultant to professional athletes and to the nutritional supplement industry as product developer, research advocate, and safety and regulatory expert.

References:
• Brasky T, Darke A, Song X, Tangen C, Goodman P, Thompson I, Meyskens F, Goodman G, Minasian L, Parnes H, Klein E, Kristal AR. Plasma Phospholipid Fatty Acids and Prostate Cancer Risk
in the SELECT Trial. J Natl Cancer Inst. 2013 Jul 10 [Epub ahead of print].
• Chua ME, Sio MC, Sorongon MC, Morales ML Jr. The relevance of serum levels of long chain omega-3 polyunsaturated fatty acids and prostate cancer risk: A meta-analysis. Can Urol Assoc J. 2013 May;7(5-6):E333-43.
• Harris WS, Pottala JV, Varvel SA, Borowski JJ, Ward JN, McConnell JP. Erythrocyte omega-3 fatty acids increase and linoleic acid decreases with age: observations from 160,000 patients. Prostaglandins Leukot Essent Fatty Acids. 2013 Apr;88(4):257-63.
• Harris WS, Thomas RM. Biological variability of blood omega-3 biomarkers. Clin Biochem. 2010 Feb;43(3):338-40.
• Harvei S, Bjerve KS, Tretli S, et al. Prediagnostic level of fatty acids in serum phospholipids: omega-3 and omega-6 fatty acids and the risk of prostate cancer. Int J Cancer. 1997;71(4):545–551.
• Howlader N, Noone AM, Krapcho M, Garshell J, Neyman N, Altekruse SF, Kosary CL, Yu M, Ruhl J, Tatalovich Z, Cho H, Mariotto A, Lewis DR, Chen HS, Feuer EJ, Cronin KA (eds). SEER Cancer Statistics Review, 1975-2010, National Cancer Institute. Bethesda, MD, http://seer.cancer.gov/csr/1975_2010/, based on November 2012 SEER data submission, posted to the SEER web site, 2013.
• Hu Y, Sun H, Owens RT, Gu Z, Wu J, Chen YQ, O’Flaherty JT, Edwards IJ. Syndecan-1-dependent suppression of PDK1/Akt/bad signaling by docosahexaenoic acid induces apoptosis in prostate cancer. Neoplasia. 2010 Oct;12(10):826-36.
• Liu Y. Fatty acid oxidation is a dominant bioenergetic pathway in prostate cancer. Prostate Cancer Prostatic Dis. 2006;9(3):230-4.
• National Heart, Lung, and Blood Institute. Unpublished Tabulations of the National Health Interview Survey, 2010. Available at: http://www.cdc.gov/nchs/nhis/nhis_2010_data_release.htm.
• O’Flaherty JT, Hu Y, Wooten RE, Horita DA, Samuel MP, Thomas MJ, Sun H, Edwards IJ. 15-lipoxygenase metabolites of docosahexaenoic acid inhibit prostate cancer cell proliferation and survival. PLoS One. 2012;7(9):e45480.
• Sorongon-Legaspi MK, Chua M, Sio MC, Morales M Jr. Blood level omega-3 Fatty acids as risk determinant molecular biomarker for prostate cancer. Prostate Cancer. 2013;2013:875615.
• Terry P, Lichtenstein P, Feychting M, Ahlbom A, Wolk A. Fatty fish consumption and risk of prostate cancer. Lancet. 2001 Jun 2;357(9270):1764-6.
• Torfadottir JE, Valdimarsdottir UA, Mucci LA, Kasperzyk JL, Fall K,Tryggvadottir L, Aspelund T, Olafsson O, Harris TB, Jonsson E, Tulinius H, Gudnason V, Adami HO, Stampfer M, Steingrimsdottir L. Consumption of fish products across the lifespan and prostate cancer risk. PLoS One. 2013 Apr 17;8(4):e59799.
• Zha S, Ferdinandusse S, Hicks JL, Denis S, Dunn TA, Wanders RJ, Luo J, De Marzo AM, Isaacs WB. Peroxisomal branched chain fatty acid beta-oxidation pathway is upregulated in prostate cancer. Prostate. 2005 Jun 1;63(4):316-23.

11 Comments
  1. Hammer1 11 years ago

    Yes I agree as well. A straight shot to the bottem line would have been more appropiate for us who read on the run

    • Author
      Will Brink 11 years ago

      There is a summary at the bottom where summary is usually found in bold. However, not every topic can be shortened to “bottom line” write ups. Some topics require taking some time to learn it’s simply not a black & white issue.

      • Hammer1 11 years ago

        Thanks, will pay more attention to the bottom read next time

  2. satx 11 years ago

    Since I was diagnonsed with PCa in 2006, I’ve been following studies, reports, etc, 100s of them. This is the first that had anything negative to say about omega-3 as promoting ANY kind of cancer. But that’s the way legit science is. Then complicate everything horribly by the all out war by BigPharma/FDA on all supplements and vitamins, all alternative approaches, “documented” by the whored scientists who find whatever negative results BigPharma pays them to find.

  3. Rick 11 years ago

    For the reading impaired… and as the summary (in bold) reflected… The jury isn’t quite out, on the suggested O3 to Prostate cancer correlation. However, the cardio-vascular benefits, combined with a reduction of O6, remains the more beneficial reason, for O3.
    Keep in mind, that most men develop Prostate cancer, eventually… but die of other causes.
    Thank you, Will and Dr. Lopez for the timely and detailed analysis.

    • NJJoe 11 years ago

      I think what you meant to say is the “jury isn’t quite in”, meaning, they haven’t reached a verdict yet. Correct? Now, what was that you said about “impairment”…?

      • Rick 11 years ago

        While I don’t have a J.D., after my name… The jury is “in” deliberation and not yet “out” of their sequester. The verdict is “in”. Though, the announcement is out. I’ve heard the expression used both ways. In my context, the jury was still “out” hearing arguments.
        As for O3 and prostate cancer… We, the jury, are still hearing the evidence. In the case of this poorly done study, with inaccurate facts, drinkers and smokers also had a reduction in prostate cancer risk.
        Impairment, can take many forms, other than the “reading impairment” that I suggested. Thanks, for making my point!

  4. Pat 11 years ago

    I’m glad you covered this as I recently started taking Omega-3 following advice on http://www.bodybuildingrevealed.com and heard this latest scare on the news in the UK a couple of days ago.

  5. Marc lynas 11 years ago

    If we were to worry about every food we stuck in our mouths, we would probably die of starvation , though personal I never eat fish oil as a supplement and try to only stick to saturated fats, where possible and I’m 131 years old ( ok made that up)

  6. Bobby Millar 11 years ago

    This is an interesting article and one that highlights problems that may arise when more than one factor has been changed. Dr Lopez’s take on the findings are fair … it would appear that (surprisingly) the jury is still out re the influence of PUFA’s on prostate cancer … what does remain clear is that cardiovascular health, the bigger of the two issues, clearly benefits from omega 3 consumption. I guess the conclusion is: keep taking the fish oil …

  7. faruk khan 11 years ago

    really very nice and informative for me as fitness consultant thanks a lot brink darling

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