For more than 100 years, it has been believed that sunlight and vitamin D deficiency were associated with the risk for many deadly cancers including colorectal, prostate, and breast. Despite this, some scientists have remained doubtful about whether this nutrient indeed has any benefit in reducing cancer risk, morbidity, and mortality. This skepticism is bolstered by several randomized controlled trials casting doubt on the nutrient’s effectiveness.
Commentary on Vitamin D’s Effect on Cancer
However, in a new commentary published in the journal JAMA Network Open, Michael F. Holick, Ph.D., MD, professor of medicine, pharmacology, physiology & biophysics, and molecular medicine at Boston University Chobanian & Avedisian School of Medicine, explores the controversy as to whether improving vitamin D status has any benefit for reducing the risk of developing cancer as well as improving relapse-free and mortality outcomes.
He believes the results of the Kanno et al. study support the significant body of associated evidence and clinical studies concluding that improvement in vitamin D status through vitamin D supplementation can be an effective strategy for improving survival outcomes of cancers, especially of the digestive tract including colorectal cancer.
Factors Influencing Vitamin D’s Effect on Cancer
“We now recognize that there are a variety of variables that can influence how vitamin D prevents and responds to cancer. For example, being at a normal weight and taking vitamin D improves your ability to survive cancer. Other factors include the patient’s genetic makeup and how the patient utilizes and breaks down vitamin D,” explains Holick, corresponding author of the piece.
The study by Kanno et. al. provides further insight. The p53 gene produces the p53 protein to prevent cells from becoming malignant. Cancer cleverly mutates this gene and the mutated p53 protein helps the cancer to grow and become immune to cancer therapy. Kanno et. al. found that patients whose immune system is on high alert and produces antibodies to control the production and release of this mutated p53 protein were more likely, by more than 2.5 fold, to improve their chances of surviving the cancer if they also took daily 2000 IUs vitamin D3 compared to patients who had the antibodies but did not take vitamin D supplementation. Those patients who did not produce the antibodies received no survival benefit by taking the vitamin D supplement.”
Future Directions in Research
Holick believes it would be worthwhile to conduct a retrospective analysis for serum p53 antibodies and the immunohistochemical presence for p53 in histologic cancer samples of breast, prostate, and other cancer studies that found no benefit when they evaluated the potential impact of vitamin D supplementation on improving cancer survival.
More importantly, Holick believes future studies evaluating vitamin D supplementation for the prevention and improvement of cancer outcomes should now include not only many of the variables mentioned above, but also include a measurement for p53 antibodies in the blood and immunohistochemical presence of p53 in cancer tissue samples.
The study by Kanno et. al. provides further insight. The p53 gene produces the p53 protein to prevent cells from becoming malignant. Cancer cleverly mutates this gene and the mutated p53 protein helps the cancer to grow and become immune to cancer therapy. Kanno et. al. found that patients whose immune system is on high alert and produces antibodies to control the production and release of this mutated p53 protein were more likely, by more than 2.5 fold, to improve their chances of surviving the cancer if they also took daily 2000 IUs vitamin D3 compared to patients who had the antibodies but did not take vitamin D supplementation. Those patients who did not produce the antibodies received no survival benefit by taking the vitamin D supplement.”
Future Directions in Research
Holick believes it would be worthwhile to conduct a retrospective analysis for serum p53 antibodies and the immunohistochemical presence for p53 in histologic cancer samples of breast, prostate, and other cancer studies that found no benefit when they evaluated the potential impact of vitamin D supplementation on improving cancer survival.
More importantly, Holick believes future studies evaluating vitamin D supplementation for the prevention and improvement of cancer outcomes should now include not only many of the variables mentioned above, but also include a measurement for p53 antibodies in the blood and immunohistochemical presence of p53 in cancer tissue samples.
Dosage and Implications
According to Holick, it is important to recognize that most of the studies that have shown that vitamin D3 supplementation improves cancer survival provided patients with at least 2000 IUs vitamin D3. This amount of vitamin D3 substantially improves the vitamin D status (serum concentration of 25-hydroxyvitamin D) to a concentration above 30 ng/mL. This amount of vitamin D3 was not reported to cause any toxicity
“It is well-documented that in order to achieve a circulating concentration of 25(OH)D above 30 ng/mL requires a vitamin D intake of at least 2000 IUs daily, an amount that cannot be achieved from diet alone but requires vitamin D supplementation. Although vitamin D is the sunshine vitamin you cannot get enough vitamin D from sun exposure unless you expose more than 20% of your body surface to sunlight almost daily like the Maasai and Hazda do in equatorial Africa,” said Holick.
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