Feb
08
2014

Sugar As A Cause Of Cancer

It has been known for a long time that cancer cells can survive without the ordinary aerobic pathways of energy production. They can get energy from a metabolic pathway, which bypasses normal cell metabolism (aerobic glycolysis). But many attempts of designing a cancer therapy to exploit this difference have so far been unsuccessful.

This Mayo Clinic website even explains that it would be a myth that cancer would grow better with sugar. The following pieces of research question this myth.

Sugar makes cancer grow faster (activates oncogenes) in fruit flies

In this study from the Icahn School of Medicine at Mount Sinai in New York City fruit flies were used as an animal model. You may ask, why fruit flies; we are not fruit flies, we are humans! As incredible as it sounds, on a cellular level our cell metabolism and the cell metabolism of fruit flies is identical. But the generation time of fruit flies is much shorter and results can be seen in days and weeks. To achieve the same in human trials would take months and years. Also, researchers could breed a strain of fruit flies that was susceptible to develop tumors. When they were fed sugar, the fruit flies developed insulin resistance within a short time. This model was chosen by the researchers as it is known for some time that in humans insulin resistance from diabetes, obesity, and other metabolic diseases leads to a higher risk of developing breast cancer, liver cancer, colon cancer and pancreatic cancer. The researchers wanted to sort out what the metabolic advantage of the cancer cells was under these conditions.

The researchers found that the sugar in the diet activated silent cancer causing genes (called “oncogenes)” in the fruit flies that in turn helped to promote insulin resistance and the development of tumors. Because of the insulin resistance sugar could not enter into the normal body cells, but the tumor was using up all of the sugar allowing the tumor cells to multiply at a rapid rate. The end result was that the sugar from the diet fed the cancer cells directly making them grow faster. Interestingly, when these flies that had developed tumors on a high sugar diet were switched to a high protein/low sugar diet, the tumors stopped growing and were contained.

In this fruit fly example the researchers were subsequently able to block cancer cell growth by special cancer suppressing drugs (acarbose, pyrvinium and an experimental drug AD81), which were given in combination. 90% of the flies given the triple-drug treatment survived to adulthood while control flies not treated with this regimen all died of their tumors.

Although this model was only done in fruit flies and one could question whether or not this was relevant to what is happening in human cancer patients, the following piece of research puts this fear to rest.

Sugar As A Cause Of Cancer

Sugar As A Cause Of Cancer

Human breast cancer cell study in vitro

In January 2014 the American Society for Clinical Investigation published a collaborative study between the Lawrence Berkeley National Laboratory, Berkeley, California, CA and the Hokkaido University Graduate School of Medicine, Japan, which used human breast cells in tissue culture showing that sugar could cause breast cancer.

The original papers of this US/Japanese research team are quite technical and I do not expect you to understand this link where it is published. I posted it for those who want in depth information. The researchers used a simple tissue culture model where they could observe tumor growth in cell cultures under the microscope using a gel where the breast tissue samples were placed side by side with normal breast cells that served as controls. The cell cultures of both normal cells and malignant cells were obtained from the same reduction mammoplasty tissue samples. This way the cell cultures mimicked a situation as close to the reality of what is going on in a woman’s body when breast cancer develops.

The normal breast epithelial cells were seen in culture to get organized as a roundish cell formation (an acinus formation) while the cancer cells were growing as irregular cell clumps. This visual effect was reproducible and is depicted in the paper. With high sugar concentrations in the growth medium breast cancer cells multiplied at a faster rate, not so the normal cells. But some normal cells underwent a transformation into abnormal and cancerous cell types. On the other hand, when sugar concentrations were severely restricted, morphological changes took place where cancer cells slowed down their growth or stagnated while some of them even changed into the normal cell formation (acinus formation). Using various known oncogene stabilizers the investigators could show that the same effect was noted as with the low sugar concentration in the growth medium.

The investigators tested whether other cell lines of breast cancer would show similar results as to the effects of sugar feeding or restriction. They were able to show that high sugar feeding activated cancer cells, no matter where the cancer cell lines originated. The authors discussed that metformin, which is known to control the metabolism in diabetic patients and lowers blood sugar levels, has also been shown to calm down growth of cancer (due to stopping oncogene stimulation), which improves the survival rates of many different cancer types in diabetic patients; it also reduces the risk of developing cancer in those who are taking metformin.

Other investigators have shown in mouse experiments that an impressive lowering of cancer rates could be achieved with low carb diets.

Human evidence for cancer causation and cancer prevention

Several clinical studies seem to indicate that there is a higher cancer rate in diabetics where insulin resistance can lead to activation of cancer producing genes (called oncogenes) and cause various cancers. In this link colorectal cancer and pancreatic cancer are discussed in relationship to diabetes and insulin resistance. High glycemic foods (sugar, starchy foods) were associated with breast cancer, colorectal cancer and endometrial cancer. The majority of trials showed this association although not all. The more obese patients were, the more pronounced the insulin resistance was and the more the relationship to these cancers became apparent. A diet that is high in starchy foods like potatoes, rice and bread is causing pancreatic cancer as was shown by researchers at the Dana-Faber Cancer Institute, Brigham and Women’s Hospital and Harvard School of Public Health. High glycemic diets have shown to cause colorectal cancer, diabetes and being overweight. The Standard North American Diet (SAD) is a pathway to many chronic illnesses due its high load in refined carbohydrates. Ironically the abbreviation for it is “SAD”, which in my opinion reflects adequately its sad influence on health and well being. We know now that sugar and starchy foods lead to insulin overproduction, which in turn causes the metabolic syndrome (also known as “insulin resistance”). This causes the immune system to weaken and fat to be deposited as visceral fat in the stomach area. Visceral fat is metabolically very active as it secretes cytokines like tumor necrosis factor alpha (TNF alpha), COX-2 enzymes and others. Insulin and growth factors from the visceral fat gang up together with the elevated blood sugar, which activates tumor-producing genes (oncogenes) to cause cancer.

While cancer rates are higher in patients with insulin resistance, they were lower in patients who did have normal insulin levels. It is important to concentrate your efforts on normalizing weight, which will normalize insulin sensibility and avoid the development of cancer. Sugar avoidance and avoidance of cereals and starchy foods will help you achieve this goal.

Conclusion

Although the idea that sugar could cause cancer has been around since 1924 (Dr. Warburg), it has taken up to now to be proven in animals and humans.

The purpose of this blog was to show how there is a connection between the consumption of sugar and starchy foods and various cancers in man. Animal experiments are useful in suggesting these connections, but many clinical trials including the Women’s Health Initiative have shown that these findings are also true in humans. It is insulin resistance due to sugar and starch overconsumption that is causing cancer.

We are now in a position to know why people who consume a low carb diet, develop less cancer than people who consume a high carb diet. I have followed such a low carb diet (also known as low-glycemic index food diet) since 2001 and find it easy to follow. However, I do not dispute that it takes some discipline to change the old way of eating to the new one. The benefits are definitely worth it: you are feeling well now and you are staying well as you age.

More information about hyperinsulinism that can cause breast cancer: http://nethealthbook.com/cancer-overview/breast-cancer/causes-breast-cancer/

Last edited Nov. 7, 2014

Incoming search terms:

Oct
26
2013

Being SAD in Fall (Seasonal Affective Disorders)

Any general practitioner knows that fall and winter are the time when patients come in with a variety of complaints like a lack of energy, problems sleeping, inability to cope with stress, but often there may be non-specific pains like muscle spasm in the back, the shoulders, or indigestion. These symptoms can all be part of seasonal affective disorders (SAD) like depression, the winter blues, often coupled with anxiety.

Emotional health does not fit easily into our health care model. The receptionist will warn the doctor that this is going to be a “difficult” patient. If the doctor has only time for a 5 or 10-minute visit, where only one or two problems can be dealt with, then this does not fit when a patient with SAD has a problem concentrating, falling asleep, and presents with a long list of other complaints. Even 20 minutes or 30 minutes may not be enough to deal with this patient adequately. It is easier to send the patient for tests and to prescribe an antidepressant and a sleeping pill and reschedule for a follow-up appointment. But this likely will result in normal blood tests and investigations, added health care costs, but no solution to the patient’s problem when he  or she simply states “doctor, I feel so sick”.

I thought it would be interesting to review how our emotions can get out of balance and review an integrative approach to SAD.

Definition of SAD

Seasonal depression (also called seasonal affective disorder) occurs during fall (autumn) and winter, but this alternates with no depressive episodes during spring and summer. A person defined to suffer from SAD would have suffered from two major depressive episodes during the past 2 years with no depressive episodes in the intervening seasons of spring and summer (Ref.1). Alternative names for SAD are winter depression and wintertime blues. Typically SAD lasts about 5 months.

Brain hormone disbalance

Around 2002 it was detected that in mice there was a second light sensitive pathway from ganglion cells in the retina that were responsible for circadian hormone rhythms. This was later confirmed to be true also in humans, where photosensitive retinal ganglion cells buried deep in the retina and containing the pigment melanopsin absorb blue light in the visible light spectrum. The electrical signals are sent along the retinohypothalamic tract, so that light from the retina regulates the hormone circadian rhythm (daily hormone fluctuations including the sleep/wake cycle) in the hypothalamus. The hypothalamus is one of the major hormone centers in the center of the brain. As this publication shows there are minor genetic sequence changes for the retinal photopigment, melanopsin in patients with SAD. This affects about 1 to 2% of the American population. Many more have probably partial defects in the function of this pigment.

Being SAD in Fall (Seasonal Affective Disorders)

Being SAD in Fall (Seasonal Affective Disorders)

Many hormones in our brain experience a circadian rhythm.

When the sun goes down, melatonin is produced making us sleepy. In the morning serotonin production goes up and stays up all day, which normally prevents depression. There are other hormones that cycle during the course of the day. Cortisol is highest in the morning and low in the evening and at night. Growth hormone and prolactin are highest during sleep.

There is a lack of serotonin in the brains of patients with SAD and depression.

Symptoms of SAD

A person affected by SAD or any other patient with ordinary depression will present with symptoms of lack of energy, with tearfulness, negative thought patterns, sleep disturbances, lack of appetite and weight loss and possible suicidal thoughts. On the other hand symptoms may be more atypical presenting with irritability and overindulging in food with weight gain. Some patients somaticize as already mentioned in the beginning of this review experiencing a multitude of functional symptoms without any demonstrable underlying disease. It is estimated that up to 30 to 40% of patients attending a general practitioner’s office have some form of depression and in the fall and winter season a large percentage of them are due to SAD.

Treatment approaches to SAD

There are several natural approaches to SAD. However, before deciding to go this route, a psychiatrist should assess the patient to determine the risk for suicide. When a patient is not suicidal, light therapy can be utilized.

1. Light therapy: According to Ref. 2 a light box from Sun Box or Northern Light Technologies should be used for 30 minutes every morning during the fall and winter months. The box should emit at least 10,000 lux. Improvement can occur within 2 to 4 days of starting light therapy, but often takes up to 4 weeks to reach its full benefit (Ref.2).

2. Exercise reduces the amount of depression. The more exercise is done the less depression remains. A regular gym workout, dancing, walking, aerobics and involvement in sports are all useful.

3. Folate and vitamin B12: Up to 1/3 of depressed people have folate deficiency. Supplementation with 400 mcg to 1 mg of folic acid is recommended. Vitamin B12 should also be taken to not mask a B12 deficiency (Ref.3). Folate and vitamin B12 are methyl donors for several brain neuropeptides.

4. Vitamin D3 supplementation: A large Dutch study showed that a high percentage of depressed patients above the age of 65 were deficient for vitamin D3. Supplementation with vitamin D3 is recommended. (Ref.3). Take 3000 to 4000 IU per day, particularly during the winter time.

5. St. John’s Wort (Hypericum perforatum) has been found useful for minor to moderate depression. It is superior in terms of having fewer side effects than standard antidepressant therapy (Ref.3).

6. Standard antidepressants (bupropion, fluoxetine, sertraline and paroxetine) are the treatment of choice by psychiatrists and treating physicians when a faster onset of the antidepressant effect is needed (Ref.3).

7. Electro acupuncture has been shown in many studies to be effective in ameliorating the symptoms of depression and seems to work through the release of neurotransmitters in the brain (Ref.4).

8. A balanced nutrition (Mediterranean type diet) including multiple vitamins and supplements (particularly the vitamin B group and omega-3 fatty acids) also stabilize a person’s mood (Ref.3). Pay particular attention to hidden sugar intake, as sugar consumption is responsible for a lot of depression found in the general population.

9. Restore sleep deprivation by adding melatonin 3 to 6 mg at bedtime. This helps also to restore the circadian hormone rhythm.

Conclusion

Seasonal affective disorder is triggered by a lack of light exposure in a sensitive subpopulation. An integrative approach as described can reduce the amount of antidepressants that would have been used in the past in treating this condition. This will reduce the amount of side effects. The use of a light box can reduce the symptoms of this type of depression within a few days. But the addition of electro acupuncture and St. John’s Wort may be all that is required for treatment of many SAD cases. Regular exercise and a balanced nutrition (with no sugar) and including vitamin supplements complete this treatment. If the depression gets worse, seek the advice of a psychiatrist and make sure your doctor has ordered thyroid tests and hormone tests to rule out other causes where depression is merely a secondary symptom.

More information on depression: http://nethealthbook.com/mental-illness-mental-disorders/mood-disorders/depression/

References

  1. Ferri: Ferri’s Clinical Advisor 2014, 1st ed. © 2013 Mosby.
  2. Cleveland Clinic: Current Clinical Medicine, 2nd ed. © 2010 Saunders.
  3. Rakel: Integrative Medicine, 3rd ed. © 2012 Saunders.
  4. George A. Ulett, M.D., Ph.D. and SongPing Han, B.M., Ph.D.: “The Biology of Acupuncture”, copyright 2002, Warren H. Green Inc., Saint Louis, Missouri, 63132 USA

Last edited Nov. 7, 2014

May
01
2008

Tree Pollen Connected With Mood Disorders

Seasonal affective disorder (SAD) does have its grip on people who react to a lack of sunlight in the winter month. As a result depression in the winter season is not uncommon. Some people just report it as feeling “down” and “tired” or report a lack of energy. Despite all the reports about SA, epidemiological studies have shown that the rate of depression is not the highest in dreary months like January or February but it spikes in the months of April and June. Dr.Teodor Postolache, a psychiatrist at the University of Maryland made a recent presentation at a meeting of the American Acadamy of Allergy, Asthma and Immunolgy delving into the reason for this finding. He compared the exposure of tree pollen which triggers a cytokine release to a tsunami.Virtually no outdoor allergens are present in the winter months, but with the release of tree pollen people who are vulnerable to allergies are exposed to massive amounts of allergens. The released cytokines may affect brain function and behaviour, resulting ultimately in changed cortisol levels and an altered serotonin metabolism. After breathing the cytokines are already released in the nose and they can continue their action in the prefrontal brain area where the centers for mood, anxiety and impulsivity are located. Dr. Postolache and his colleagues confirmed that individuals with a history of allergy and asthma had a 2.5 fold of suicide compared to controls and those with allergic rhinitis had a 1.7 fold higher risk.

Tree Pollen Connected With Mood Disorders

Tree Pollen Connected With Mood Disorders

For the first time it could also be demonstrated that cytokine levels in suicide victims were significantly elevated in the orbitofrontal cortex, the brain area that affects mood. Intranasal corticosteroids in the form of nosedrops can bring significant relief to allergy sufferers, and Dr. Postolache and his team will examine the benefits of intranasal corticosteroids closer  in a clinical study. Whereas systemic corticosteroids have shown a negative impact on mood disorders and depression, the local application of a nasal spray or drops is geared to abolish the pathways from the nose to the brain for the inflammatory cytokines.

More information on seasonal rhinitis: http://nethealthbook.com/ear-nose-and-throat-diseases-otolaryngology-ent/nose-problems/allergic-rhinitis/

Reference: The Medical Post, April 1, 2008, page 1, 34

Last edited November 3, 2014