altering the malignant milieu: using dietary and nutritional supplements for prevention and...
TRANSCRIPT
Altering the Malignant Milieu: Using Dietary and Nutritional
Supplements for Prevention and Proactive Survivorship
Lise Alschuler, ND, FABNO
2Questions to answerIs Cancer inevitable?Why is cancer more common as we age?What are the underlying mechanisms of cancer?Can lifestyle-based strategies impact cancer risk reduction?
3
Let’s start with the stats• In a lifetime 1 in 2 men will develop cancer and 1 in 3
women will develop cancer• Every 60 seconds, someone dies of cancer• According to the World Cancer Research Fund (WCRF)
the number of global cancers has increased by a fifth in less than a decade to around 12 million new cases a year.
• Cancer diagnoses worldwide are expected to increase by 45% in the next 20 years.
• More than 60% of cancer patients will survive more than five years after diagnosis.
Kelland K, Healthier living could cut 2.8 million cancer cases. Sun, Sep 25, 2011.London (Reuters)
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Cancer Incidence over age 65By the year 2020, it is estimated that between 20% to
25% of the population in the Western world will be aged 65 years or more
According to the National Cancer Institute, >60% of all incident cancers and 70% of all cancer-related deaths occur in patients >65 years of age.
Ries L, Kosary C, Hankey B (eds). SEER Cancer Statistics Review, 1975–1995.Bethesda, MA: National Cancer Institute 1998.
5Cancer Incidence Rates 1993-1997
There is a dramatic
increase in cancer risk
between the ages of 40
and 80 – primarily due to increases
in breast, lung, colon
and prostate cancers.
6The Umbrella of Primary Prevention Assesses for, and attempts to correct the underlying determinants of
carcinogenesis – throughout the cancer continuum
No Evidence of Cancer
Active Cancer No Evidence of Cancer
Treatment
Carcinogenesis Lifespan
Recurrent Disease
7
The Determinants: Why does cancer increase as we age?• Aging is characterized by increasing
architectural and functional cellular abnormalities that can develop into malignancy– progressively damaged cellular genome– changes in normal gene expression: epimutagenics– genetic instability – loss of differentiation– decreased apoptosis and cell repair
• A long history of sub-optimal lifestyle drives malignancy– inflammatory signal transduction– altered stromal integrity– immune dysregulation
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The deterioration of cell integrity takes decades
9Cancer: It’s all in the genes… or is it?
9
True genetic mutations account for only 5% – 10% of all cancers.
So, how does cancer develop?
Anand P. Pharmaceutical Research, 2008: 25 (9):2097
10The origins of cancer
Anand P. et al. Pharm Res, 2008; 25(9)
11Intrinsic carcinogenesis
Our 1014 cells – and their DNA - are continually exposed to genomic injury from:Spontaneous injury Oxidative stress as a by-product of cellular metabolism
and environmental pollutantsErrors, esp. in rapidly dividing cells
These injuries lead to:DNA and chromosomal damageDamaged DNA expressionDamaged mitochondria Altered apoptosis
12Cancer Determinant: Chromosomal damage
In the setting of telomere dysfunction and uncapping of chromosome ends, telomeric fusions can occur between sister chromatids.
During anaphase, as sister chromatids are pulled apart, the fused chomosome ends are put under tension and form anaphase bridges.
These pulling forces break chromosomes leading to DNA damage.
Additional uncapped ends causes the cycle to repeat with subsequent cell divisions.
13Oxidative stress and aneuploidyAneuploidy can thus occur from failure of the spindle
checkpoint, the safeguard mechanism that halts anaphase onset until mitotic spindle assembly.
Oxidative stress overrides the spindle checkpoint. It takes approximately 60 cell divisions to form a tumor…
So, depending upon the lifespan of the cell and its doubling time, under on-going oxidative stress, aneuploidy is more likely, however:
If the redox state of the cell is supported with antioxidants, aneuploidy will be reduced, ultimately preserving chromosomal stability and methylation patterns.Role of lifelong dietary antioxidants: CoQ10, vitamin E (nuts, soy,
spinach, seeds), plant flavonoids (green tea, soy, milk thistle, berries, turmeric, etc.)
D'Angiolella V. Cell Cycle. 2007 Mar 1;6(5):576-9.
14Plant-based diets: key to prevention
Review of 200 studies examining the link between fruit/vegetable intake and cancers of the lung, colon, breast, cervix, esophagus, oral cavity, stomach, bladder, pancreas and ovary.
Protective effect in 128 out of 156 studies in which results were expressed as relative risk.Lowest quartile of F/V intake experience 2x the
risk of cancer compared with those in the highest quartile of intake.
Patterson BG et al. Nutr Cancer. 1992;18(1):1-29.
15Prudent diet and breast cancer riskMeta-analysis:
Case-control and cohort studies that identified: prudent/healthy diet (n= 18) Western/unhealthy diet (n = 17) and drinker (n = 4) dietary patterns.
In total, 18 studies met the inclusion criteria and were included in the analysis.
Evidence of a 11% decrease in the risk of breast cancer in the highest compared to the lowest categories of prudent/healthy dietary patterns (OR = 0.89; 95% CI: 0.82, 0.99; P= 0.02) in all studies and in pooled cohort studies alone.
Prudent/healthy diets tended to have high quantities of fruit, vegetables, poultry, fish, low-fat dairy and whole grains.
Brennan SF, et al. Am J Clin Nutr. 2010 May;91(5):1294-302
16Diet and Prostate cancer riskMen (n=30,000) who ate more than a serving of vegetables
each week had roughly half the risk of developing advanced-stage prostate cancer compared with their peers who ate these vegetables less than once a month.
Men who ate the most veggies had a 49-percent lower risk of being diagnosed with prostate cancer that had advanced to stage III or IV.
Broccoli and cauliflower appeared to have the biggest impact. Men who ate broccoli more than once a week had a 45% lower risk of advanced prostate cancer than those who ate the vegetable less than once a month, while eating cauliflower this often cut risk by 52%.
B. Vastag. J Natl Cancer Inst. 2007;99(18):1364-5
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Mediterranean diet: the best plant-based diet? Mediterranean diet:
Large quantity and diversity of plant-derived foods: Whole grains Raw and cooked vegetables Fresh and dried fruits Legumes Nuts
Fish Moderate meat and dairy (preferably goat and sheep) Olive oil Moderate wine
Diet of southern Italy and Greece around the 1970’s Mediterranean diet has been found to reduce all-cause mortality and
the risk for chronic disease (especially CVD) in the Seven Countries Study when compared to US and northern European diets.
Keys A. et al. Am J Epidemiol. 1986;124:903-15.
18Mediterranean diet add-on: Soy Soy consumption can reduce the risk of breast cancer. Women with a history of ER+ breast cancer have a decreased risk of
recurrence and decreased risk of dying from breast cancer if they regularly consume soy foods: >23mg soy (equivalent to 1 glass soy milk or ½ cup tofu) decreases risk of
dying from any cause by 9% and reduces risk for breast cancer recurrence by 15% compared to women who do not eat soy.
Prospective cohort study of women receiving adjuvant endocrine therapy. median follow-up period for the 524 patients in this study was 5.1 years.
Among premenopausal patients, the overall death rate (30.6%) was not related to intake of soy isoflavones
The risk of recurrence for postmenopausal women in the highest quartile of soy intake was 33% lower (HR = 0.67, 95% CI 0.54–0.85, p for trend
= 0.02) than in the lowest quartile of soy isoflavone intake.
Shu XO, et al. JAMA, 2009Kang X, et al. CMAJ, 2010
19Soy and Breast cancer recurrence
Pooled analysis of three studies: Shanghai Breast Cancer Survival Study (SBCSS), the Life After Cancer Epidemiology (LACE) Study, and the Women’s Healthy Eating & Living (WHEL) Study
9514 breast cancer survivors, dx’ed btw 1991-2006 Mean follow-up 7.4 years Consumption of > 10 mg isoflavones/d associated with:
statistically sig reduced risk recurrence HR: 0.75 non-stat. sig reduced risk all cause mortality HR: 0.0.87 non-stat sig reduced risk breast-cancer specific mortality HR: 0.83
Inverse association in Tamoxifen users HR: 0.63 for > 10 mg vs < 4 mg/d isoflavones
Inverse association with ER neg. survivors slightly stronger than ER+ HR: 0.64 for >10 mg vs. < 4 mg/d isoflavones
Nechuta SJ, et al. American Journal of Clinical Nutrition. 2012 Jul 1;96(1):123-132
20Don’t forget about Chocolate!
Dark chocolate is a powerful antioxidant.
It shares similar flavonoids compounds to those found in green tea, another potent antioxidant.
Dark chocolate is preferable over milk chocolate, since it has a twice the amount of flavonoids than does milk chocolate
Dark chocolate as a “snack within a balanced diet can improve DNA resistance to oxidative stress in healthy subjects.”
However, the benefit wears off within 22 hours, therefore for long-term and on-going benefit, you must consume dark chocolate daily!
Spadafranca A. et al. Br J Nutr. 2010 Apr;103(7):1008-14
21What about Alcohol?• Women who drink between one and two alcoholic drinks per day increase
their relative risk of breast cancer by 10% compared with light drinkers who
drink less than one drink a day
• 1 drink/d raises a 50y woman’s 5 yr absolute BrCA risk from 3% to
3.45%
• Between 3 – 5 drinks/week is associated with reduced all-cause
mortality in women
• The risk of breast cancer increases by 30% in women who drink more than
three drinks a day. ▫ 30% increased risk is the same risk from HRT
▫ 30% increased risk is the same risk from smoking 1 pack cigarettes daily
• Red wine = white wine = beer = liquor therefore the risk is attributable to
ethyl alcohol
• No differences across ethnicitiesKlatsky, et al., ECCO – The European Cancer Conference 2007, Barcelona, Spain (
http://www.fecs.be)Newcomb P. et al. J Clin Oncol. 2013;Apr8 (epub ahead of print)
22
Chromosomal Stability: Telomeres
Cells with high turnover are the most vulnerable to cancer development – telomeres shorten with each division
This is why epithelial cancers are the most common cancers (breast, prostate, lung, colon)
This is also one reason why chronic inflammation increases cancer risk – inflamed tissue has higher rate of cell division.
Telomerase activity increases with malignant progression as a result of increasing genomic instability
23Telomeres & Cancer
• While telomere elongation is a common molecular feature of advanced malignancies, short telomeres and concurrent chromosomal instability contribute to malignant cell transformation.
• Prospective population study of 787 patients without evidence of cancer were followed for 10 years
• Baseline telomere length was substantially shorter in participants with incident cancer (mean telomere length, 1.12; 95% CI, 1.01-1.23) than in those who remained free of cancer (mean telomere length, 1.53 [95% CI, 1.47-1.59]; P<001).
• Tumors with a high fatality rate tended to exhibit more prominent relationships with telomere length and tumors with a more favorable prognosis showed modest or no associations. Willeit P. et al. JAMA, 2010;304(1):69
24Cancer and Shortened Telomeres
Shortest
Longest
Shortest
Longest
25Lifestyle factors that shorten telomeres
• High perceived stress (with increased urinary output of stress associated Epi. and Norepi.)
• Full-time work and longer history of full time work (related to stress)
• Sleep deprivation shortens telomeres• Oxidative stress shortens telomeres:
– Obesity – Cigarette smoking– Environmental pollution
Parks CG, et al. Cancer Epidemiol Biomarkers Prev. 2009 Feb;18(2):551-60. Valdes AM, et al. Lancet. 2005 Aug 20-26;366(9486):662-4.
26
Ornish D, et al.Lancet Oncology, 2013. published online
27Study Overview Premise: Prematurely shortened telomere length is associated with
chromosomal rearrangements Follow-up to GEMINAL study which demonstrated that lifestyle changes
over 3 mo increased telomerase activity by up to 30%. Ten men with low-risk prostate cancer under active surveillance + lifestyle
change vs. 25 controls (active surveillance only) were evaluated over 5 yrs PSA <10ug/L, Gleason < 6, stage T1 or T2a tumor and <33% biopsy cores +
for disease Lifestyle change:
Diet high in whole foods, plant-based protein, fruits, vegetables, unrefined grains, legumes, low fat (<10% total calories)
Moderate aerobic exercise (walking 30m/d x 6d/week Stress management (gentle yoga, breathing, meditation, imagery, progressive
relaxation x 60m/day Increased social support (60 min support-group sessions per week
Peripheral blood mononuclear cells were assessed by PCR for telomere length compared to standard reference DNA and were also assessed for telomerase activity
28Results
For each percentage point increase in adherence score, the average relative telomere length increased by 0·07 T/S
units (95% CI 0·02–0·12, p=0·005) after adjustment for age at end of study and length
of follow-up.Telomerase did not change –
perhaps due to down-regulation after telomeres have stabilized
29Pessimism and Telomeres
Brain Behav Immun. 2009 May; 23(4): 446–449.
Higher pessimism is associated with shorter TL in leukocytes. Pessimism is also associated with higher basal levels of IL-6, an
indicator of systemic inflammation (and oxidative stress).
30Other factors affecting telomeres
JAMA. 2010;304(1):69-75
31Cancer Determinant: Epigenetic changes
32Carcinogenic epigenetic changes
Polyphenols, esp. EGCG, inhibit DNA methyltransferase and decrease SAM
(methyl donor) activity
Manoharan M. Int Braz J Urol. 2007 Jan-Feb;33(1):11-8.
33Epigenetic tumorigenesis
• Hypomethylation in malignant cells compared with normal cells in the same tissue is one of the first epigenetic alterations in human cancer. – Repetitive DNA sequences are demethylated– This leads to genetic instability and even more
hypomethylation as the lesion progresses from benign to invasive cancer.
• Hypermethylation of CpG islands in promoter regions of tumor-suppressor genes unique to each tumor type occurs as tumorigenesis progresses.– Decreased: DNA repair, metabolism of carcinogens,
cell-to-cell interactions, apoptosis.
Can
cer
Pro
gres
sion
Esteller M. NEJM 2008;358(11):1148-59
34Nutritional influences on epimutagenics
Li Y. and T. Tollefsbol. Curr Med Chem. 2010;17(20):2141-2151
35Epigenetic to genetic alteration
35
Further DNA mutations and epigenetic changes
Cancer initiated
Primed Cancer initiated
Cancer progression
Normalcells
Epigenetic change
Epigenetic change
Genetic mutations
Genetic mutations
Cancer initiatedApoptosis
Apoptosis
36Dietary apoptogens
Trans-resveratrol from grapes, peanuts, berries, and red wine activate p53.
Garlic derivative S-allylmercapto-L-cysteine induces p53 activated caspase activity and apoptosis.
Genistein, curcumin and melatonin each activate p53 induced apoptosis.
Curcumin upregulates p53.Genistein, Vitamin D, Vit. E and resveratrol also stimulate
p53 independent apoptosis.
M. Alkhalaf, Pharmacology 2007;80:134-143Y. Lee, Int J Mol Med. 2008 Jun;21(6):765-70Sanchez-Barcelo EJ, Recent Pat Endocr Metab Immune Drug Discov. 2012;6(2):108. D.Vauzour, et al. Arch Biochem Biophys. 2007;468(2):159-66.A. Goel, et al. Biochem Pharmacol. 2008;75(4):787-809
37Cancer Determinant: Mitochondrial Health
Healthy mitochondria in premalignant and healthy cells restore cellular redox status, eliminate glycolysis, cause apoptosis in the face of overwhelming oxidative stress, and facilitate a differentiated state.
Damaged mitochondria favor aerobic glycolysis, resulting in reduced glutathione-mediated antioxidation and perpetuation of uncoupling.
Thus, mitochondrial protection with antioxidation is an important component of cancer prevention.
Seyfried T and L Shelton. Nutrition & Metabolism, 2010;7:7
38Mitochondrial uncoupling
Glycolysis 2 Pyruvate Coenzyme A
34-36 ATP
TCA cycle
Electron transport chain
Uncoupling
Oxidative stress
HIF
2ATP Lactic acid
Cytosol Mitochondria
+LDH
Mitochondrial membrane
damage
X
39Sources of mitochondrial damage
Oxidative stress Mitochondria are loaded with glutathione to handle the superoxides and H2O2
generated from oxidative phosphorylation. However, too much ROS will outpace glutathione. Causes:
Macronutrient overload (overconsumption): eating a lot of food, but lack of energy = mitochondrial dysfunction
Hyperglycemia Excess fructose Saturated fat Advanced Glycation Endproducts (protein exposed to high heat and/or sugar) Inflammation Hypoxia Environmental toxins (especially bisphenol-A) Toxic metals Ionizing radiation Medications (statins inhibit mitochondrial biogenesis leading to increased ROS)
40Building Healthy MitochondriaExercise and Movement: restores mitochondrial dynamics
and builds mitochondria
Exercise is cancer preventative
oMeta-analysis (27 observational studies published between 1950 and 2011): Consistent evidence that physical activity is associated with reduced risk (41% - 61%) of all-cause, breast and colon cancer specific mortality. oPhysical activity improves quality of life of people
diagnosed with cancer. Exercise reduces obesity, now characterized as an
independent risk factor for cancer
Ballard-Barbash R, et al. J Natl Cancer Inst 2012;104:815-840
41Exercise and Breast Cancer
Meta-analysis of prospective studies examining the relationship between exercise and breast cancer risk. Overall, 31 studies with 63,786 cases were included
The overall association between physical activity and breast cancer risk was
RR= 0.88 (CI=0.85–0.91). Stronger inverse associations were found for subjects with BMI<25 kg/m2
[0.72 (0.65–0.81)], premenopausal women [0.77 (0.72–0.84)], and estrogen and progesterone receptor-negative breast cancer [0.80 (0.73–0.87)].
Vigorous exercise reduced BrCA risk more than moderate activity [RR = 0.86 (0.82-0.89) vs. RR = 0.97 (0.94-0.99)]
The risk of breast cancer, in relationship to exercise intensity, decreased by: 2% (P < 0.00) for every increment of 10h light household activity (= 25
metabolic equivalent (MET)-h) per week in non-occupational physical activity
3% (P < 0.00) for every 4 h/week of walking at 2 miles/h or 1 h/week of running at 6 miles/h (= 10 MET-h/week) increment in recreational activity
5% (P < 0.00) for every 2 h/week increment in vigorous recreational activityWu Y. et al. Breast Cancer Res Treat. 2012; Feb;137(3):869-82.
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Exercise and Breast CA Mortality risk
Data over a median of 23 months post-diagnosis (interquartile range 18–32 months) were pooled in the After Breast Cancer Pooling Project (n = 13,302).
2.5 h (10 MET-hours/week) of moderate intensity physical activity per week was associated with: 27% reduction in all cause mortality (n = 1,468 events,
Hazard Ratio (HR) = 0.73, 95% CI, 0.66–0.82) 25% reduction in breast cancer mortality (n = 971 events,
HR = 0.75, 95% CI 0.65–0.85) compared with women who did not meet the physical
activity Guidelines (<10 MET-hours/week).
Beasley JM, et al. Breast Cancer Res Treat. 2012 Jan;131(2):637-43
43Exercise and Breast cancer
Women who engaged in the equivalent of at least two to three hours of brisk walking each week in the year before they were diagnosed with breast cancer were 31% less likely to die of the disease than women who were sedentary before their diagnosis. [multivariable hazard ratios (HR) = 0.69 (95% CI, 0.45 to 1.06; P = .045)]
Women who increased physical activity after diagnosis had a 45% lower risk of death (HR = 0.55; 95% CI, 0.22 to 1.38) when compared with women who were inactive both before and after diagnosis
Women who decreased physical activity after diagnosis had a four-fold greater risk of death (HR = 3.95; 95% CI, 1.45 to 10.50).
Irwin et al. J Clin Oncol. 2008 Aug 20;26(24):3958-64.
44Dynamic Duo: Exercise and Diet
• A combination of 5-6 servings of vegetables/d and exercise equivalent to walking 30m 6 days/week (540 MET) reduced the risk of death from breast cancer by 44% among early stage breast cancer patients (hazard ratio, 0.56; 95% CI, 0.31 to 0.98).
Pierce, et al. Journal of Clinical Oncology. 2007;25 (17):2345-41
45
Exercise and Colon cancer
From a cohort of adults without colorectal cancer at baseline in 1992-1993, 2,293 participants were diagnosed with invasive, nonmetastatic colorectal cancer up to mid-2007. Mean follow-up time from diagnosis to death or end-of-study
was 6.8y
Participants completed detailed questionnaires that included information concerning recreational physical activity and leisure time spent sitting at baseline, before their cancer diagnosis, and again after their cancer diagnosis.
Campbell P. et al. J Clin Oncol. 2013; Mar 1;31(7):876-85
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Results The highest prediagnosis recreational physical activity category (8.75 or
more MET hours per week = >150min/week) compared with the lowest category (3.5 MET hours per week) was associated with a 28% lower risk of all-cause mortality.
The same comparison for postdiagnosis recreational physical activity resulted in an RR of 0.58. In cause-specific mortality analyses, only the results for CVD mortality were
statistically significant (prediagnosis RR, 0.60; postdiagnosis RR, 0.36). Leisure time spent sitting of 6 or more hours per day on the prediagnosis
survey was associated with a statistically significant 36% higher risk of all-cause mortality.
Postdiagnosis sitting time was associated with a statistically significant 62% higher risk of colorectal cancer–specific mortality and a nonstatistically significant higher risk of CVD mortality.
This study supports recommendations for recreational physical activity and the avoidance of sedentary time among colorectal cancer survivors.
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Exercise and Prostate cancer
Health Professionals Follow-up Study, a prospective cohort study of 47,620 US male health professionals, followed up from February 1, 1986, to January 31, 2000.
In men 65 years or older, a lower risk in the highest category of vigorous activity was observed for advanced (RR=0.33; 95% CI, 0.17-0.62) and for fatal (RR=0.26; 95% CI, 0.11-0.66) prostate cancer.
No associations were observed in younger men. Regular vigorous activity may slow the progression of and
reduce mortality from prostate cancer.
Giovannucci EL, et al. Arch Intern Med 2005 May;165(9):1005-1010
48Building Healthy Mitochondria
Caloric restriction: upregulates PCG-1alpha which activates PPARγ to increase glucose metabolism and decreases Insulin to reduce glucose influx and IGF-1 to reduce proliferation stress
Cruciferous vegetables: (Glucoraphanin, precursor to Sulforaphane) increase fatty acid B-oxidation and Ox Phos
Acetyl-L-carnitine: Increases β- oxidation of fatty acids and also regulates key enzymes involved in glycolysis.
Berberine: PPAR agonist
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Building health mitochondriaCoQ10 (as ubiquinol): integral component of the electron
transport chain; modulates mitochondrial permeabilityRiboflavin: key factor in electron transport protein function
and co-factor in fatty acid oxidation and krebs cycleAlpha lipoic acid: Studies performed in rats have also
shown that supplementation with alpha-lipoic-acid and acetyl-L-carnitine reduce oxidative stress and improve mitochondrial function.
N-acetyl cysteine: functions as a powerful antioxidant and prevents the induction of MCT4 (marker of oxidative stress and glycolysis) expression in stromal fibroblasts that were co-cultured with MCF7 cells
Parikh, S. et al. Curr Treat Options Neurology. 2009;11:414-430.
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Mitochondrial antioxidation: Glutathione The risk of oral cancer is reduced by more than 50 percent in
individuals with the highest blood levels (>5.9mmol/g Hb) of glutathione compared to those with the lowest levels (<4.9mmol/g Hb).
Men and women who consumed the greatest daily amount of glutathione in their diet (50 to 242 mg) had a more than 50 percent reduction in their risk of developing pharyngeal cancer compared to those with the lowest intake (5mg-33mg).
Low levels of glutathione have also been linked to the development of cancers of the colon, prostate, breast, and bladder.
Note: Glutathione is CONTRAINDICATED DURING ACTIVE RADIATION THERAPY AND MOST CHEMOTHERAPY TREATMENTS
Flagg EW, et al. American Journal of Epidemiology 139(5):453-65, Mar 1994.Schwartz, JL, Shklar, G. Nutr Cancer 26:229-36, 1996.