14/07/2023
SUGAR = TUMOR?
2023-07-14
A German biologist named Warburg discovered in the 1920s that tumor cells absorb a lot of sugar compared to normal cells (1). The first step in breaking down sugar is the same in cancerous and healthy cells. In healthy cells, the first intermediate product enters the mitochondria and is further developed here in the presence of oxygen (oxidative phosphorylation). On the other hand, in tumor cells, the first intermediate product remains in the cytoplasm and evolves there, e.g. into lactic acid (anaerobic glycolysis). The Warburg effect or Warburg hypothesis, named after the researcher, is very surprising, because the efficiency of anaerobic glycolysis is only a fraction of that of oxidative phosphorylation. While the latter process produces 32 energy-carrying molecules (ATP) from a single sugar molecule, tumor cells produce only two. Healthy cells also need this inefficient process - but only in the absence of oxygen. During anaerobic movement, e.g. during the 100 m sprint, the muscle cells are not able to use the mitochondria for burning either - because "burning" requires oxygen - but when the run is over, the normal process is restored. This is why short-distance runners gasp for air at the end of the race.
A hundred years later, it is still not clear why aprox. 80% of the tumor cells behave so strangely. There are at least 4 hypotheses, which are nicely summarized in the second diagram of article (2). Of course, if we have 4 explanations for a phenomenon, we cannot know which one is the real one. However, the Warburg effect does exist, so much so that the location of cancerous tissues can be easily determined by examining the level of glucose uptake (PET scan after administration of radioactive glucose).
Intermittent fasting
Fasting has been used by people for thousands of years to overcome diseases. Fasting therefore results in not only spiritual but also physical purification. We know quite a lot about the mechanism of action (3). Two things are worth mentioning here. If we don't burden our body with digesting the products of 5 meals a day, it will have more time and energy to remove damaged cells (autophagy). From the point of view of malignant tumor, it is particularly important that most of the sugar reserve is used up during fasting, and the blood also carries less amino acids, so we practically starve the extremely voracious cancerous tissue. And the healthy cells - thank you - function well.
From the point of view of cancer patients, the surprising experience that the effectiveness of chemotherapy increases during fasting is of special significance. Patients also feel better if they eat less during treatment, which is important, but it's not just about that. The fight of the immune system against cancer cells increases, and the self-destruction of cancer cells (autophagy) also increases (3). Unfortunately, there are relatively few studies on this question. One of the reasons for this is that most hospitals insist on medication-only treatment, the other reason is on the patients' side: those who have never done it have a hard time getting started with intermittent fasting.
Lots of fat, little carbs
The ketogenic diet, which is low in carbohydrates and high in fats mimics in a way intermittent fasting. The usual western diet contains a lot of starches, e.g. bread, white rice, boiled potatoes, etc. With the usual diet, the daily calorie requirement is fulfilled by approx. 50% by carbohydrates (oh, egg dumplings, I miss you!). In a diet low in carbohydrates, this is only 5-15%.
Low carb - high fat diet does not exclude carbohydrates, and drinking lukewarm lard is not required. The diet simply excludes "fast" carbohydrates. Instead of potatoes or white rice, a large portion of salad drizzled with olive oil can be a suitable side dish. On the one hand, olive oil is a "good" fat, and on the other hand, all fats slow down the absorption of carbohydrates. A little more scientifically: carbohydrates of low glycemic index are "good" for us.
Although there are no extensive studies on humans, experiments on animals or in vitro tissues suggest that the ketogenic diet slows down, and in some cases stops, tumor growth (5-6).
Any caveats?
Recently, a report was published confirming that the keto diet does indeed reduce tumor growth, however, may cause pathological weight loss leading to death (7). In mice! Mice are handy :-( for experimentation, however, rodents have a very different metabolism from ours. Lack of large scale studies in humans is understandable: hospitals and patients alike are averse to the weird keto diet. However, there are quite a lot of anecdotal reports suggesting that cancer patients do not lose an abnormal amount of weight on the ketogenic diet. However, it is difficult to draw a final conclusion, controlled studies are needed.
THIS IS NOT MEDICAL ADVICE!
I'm a biologist, not a medical doctor. Above I summarised some scientific publications and popular articles reporting on them. I do not give medical advice. Ask your doctor for advice.
1) An Old Idea, Revived: Starve Cancer to Death
https://www.nytimes.com/2016/05/15/magazine/warburg-effect-an-old-idea-revived-starve-cancer-to-death.html
2) The Warburg Effect: How Does it Benefit Cancer Cells?
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4783224/
Figure 2 for possible mechanisms: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4783224/figure/F2/
3) The Health-Promoting Effects and the Mechanism of Intermittent Fastinghttps://www.ncbi.nlm.nih.gov/pmc/articles/PMC10005873/
4) Fasting and Cancer
https://www.healthline.com/health/fasting-and-cancer
5) Ketogenic diet in the treatment of cancer – Where do we stand?
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7056920/
6) Ketogenic Diets and Cancer: Emerging Evidence
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6375425/
7) Keto diet may slow cancer tumour growth in mice – but not without potentially deadly consequences
https://theconversation.com/keto-diet-may-slow-cancer-tumour-growth-in-mice-but-not-without-potentially-deadly-consequences-207658
The diet was shown to accelerate onset of a severe wasting disease.
