 |
|
How vitamin C stops the big 'C'
September 11, 2007Nearly 30 years after Nobel laureate Linus Pauling famously and controversially suggested that vitamin C supplements can prevent cancer, a team of Johns Hopkins scientists have shown that in mice at least, vitamin C - and potentially other antioxidants - can indeed inhibit the growth of some tumors - just not in the manner suggested by years of investigation.
The conventional wisdom of how antioxidants such as vitamin C help prevent cancer growth is that they grab up volatile oxygen free radical molecules and prevent the damage they are known to do to our delicate DNA. The Hopkins study, led by Chi Dang, M.D., Ph.D., professor of medicine and oncology and Johns Hopkins Family Professor in Oncology Research, unexpectedly found that the antioxidants' actual role may be to destabilize a tumor's ability to grow under oxygen-starved conditions. Their work is detailed this week in Cancer Cell.
"The potential anticancer benefits of antioxidants have been the driving force for many clinical and preclinical studies," says Dang. "By uncovering the mechanism behind antioxidants, we are now better suited to maximize their therapeutic use."
"Once again, this work demonstrates the irreplaceable value of letting researchers follow their scientific noses wherever it leads them," Dang adds.
The authors do caution that while vitamin C is still essential for good health, this study is preliminary and people should not rush out and buy bulk supplies of antioxidants as a means of cancer prevention.
The Johns Hopkins investigators discovered the surprise antioxidant mechanism while looking at mice implanted with either human lymphoma (a blood cancer) or human liver cancer cells. Both of these cancers produce high levels of free radicals that can be suppressed by feeding the mice supplements of antioxidants, either vitamin C or N-acetylcysteine (NAC).
However, when the Hopkins team examined cancer cells from cancer-implanted mice not fed the antioxidants, they noticed the absence of any significant DNA damage. "Clearly, if DNA damage was not in play as a cause of the cancer, then whatever the antioxidants were doing to help was also not related to DNA damage," says Ping Gao, Ph.D, lead author of the paper.
That conclusion led Gao and Dang to suspect that some other mechanism was involved, such as a protein known to be dependent on free radicals called HIF-1 (hypoxia-induced factor), which was discovered over a decade ago by Hopkins researcher and co-author Gregg Semenza, M.D., Ph.D., director of the Program in Vascular Cell Engineering. Indeed, they found that while this protein was abundant in untreated cancer cells taken from the mice, it disappeared in vitamin C-treated cells taken from similar animals.
"When a cell lacks oxygen, HIF-1 helps it compensate," explains Dang. "HIF-1 helps an oxygen-starved cell convert sugar to energy without using oxygen and also initiates the construction of new blood vessels to bring in a fresh oxygen supply."
Some rapidly growing tumors consume enough energy to easily suck out the available oxygen in their vicinity, making HIF-1 absolutely critical for their continued survival. But HIF-1 can only operate if it has a supply of free radicals. Antioxidants remove these free radicals and stop HIF-1, and the tumor, in its tracks.
The authors confirmed the importance of this "hypoxia protein" by creating cancer cells with a genetic variant of HIF-1 that did not require free radicals to be stable. In these cells, antioxidants no longer had any cancer-fighting power.
Johns Hopkins Medical Institutions
"Once again, this work demonstrates the irreplaceable value of letting researchers follow their scientific noses wherever it leads them," Dang adds.
The authors do caution that while vitamin C is still essential for good health, this study is preliminary and people should not rush out and buy bulk supplies of antioxidants as a means of cancer prevention.
The Johns Hopkins investigators discovered the surprise antioxidant mechanism while looking at mice implanted with either human lymphoma (a blood cancer) or human liver cancer cells. Both of these cancers produce high levels of free radicals that can be suppressed by feeding the mice supplements of antioxidants, either vitamin C or N-acetylcysteine (NAC).
However, when the Hopkins team examined cancer cells from cancer-implanted mice not fed the antioxidants, they noticed the absence of any significant DNA damage. "Clearly, if DNA damage was not in play as a cause of the cancer, then whatever the antioxidants were doing to help was also not related to DNA damage," says Ping Gao, Ph.D, lead author of the paper.
That conclusion led Gao and Dang to suspect that some other mechanism was involved, such as a protein known to be dependent on free radicals called HIF-1 (hypoxia-induced factor), which was discovered over a decade ago by Hopkins researcher and co-author Gregg Semenza, M.D., Ph.D., director of the Program in Vascular Cell Engineering. Indeed, they found that while this protein was abundant in untreated cancer cells taken from the mice, it disappeared in vitamin C-treated cells taken from similar animals.
"When a cell lacks oxygen, HIF-1 helps it compensate," explains Dang. "HIF-1 helps an oxygen-starved cell convert sugar to energy without using oxygen and also initiates the construction of new blood vessels to bring in a fresh oxygen supply."
Some rapidly growing tumors consume enough energy to easily suck out the available oxygen in their vicinity, making HIF-1 absolutely critical for their continued survival. But HIF-1 can only operate if it has a supply of free radicals. Antioxidants remove these free radicals and stop HIF-1, and the tumor, in its tracks.
The authors confirmed the importance of this "hypoxia protein" by creating cancer cells with a genetic variant of HIF-1 that did not require free radicals to be stable. In these cells, antioxidants no longer had any cancer-fighting power.
Johns Hopkins Medical Institutions
Antioxidant Current Events and Antioxidant News RSSVitamin C lowers levels of heart disease biomarker, finds study, adds to debate of health benefits
A new study led by researchers at the University of California, Berkeley, adds to the evidence that vitamin C supplements can lower concentrations of C-reactive protein (CRP), a central biomarker of inflammation that has been shown to be a powerful predictor of heart disease and diabetes.
Melanin Production Discovered in Fat Tissue May Protect Some Individuals Against Chronic Diseases Associated with Obesity
A two-year study conducted by researchers at George Mason University, INOVA Fairfax Hospital and the National Cancer Institute may open the door to new therapies for combating chronic diseases associated with obesity, a condition that affected more than 33 percent of American adults in 2005-06 according to the Centers for Disease Control and Prevention.
Study shows pine bark reduces jetlag
A new study published in the journal of Minerva Cardioangiologica reveals Pycnogenol, pine bark extract from the French maritime pine tree, reduces jetlag in passengers by nearly 50 percent.
Folic acid, B vitamins do not appear to affect cancer risk
A daily supplementation combination that included folic acid and vitamin B6 and B12 had no significant effect on the overall risk of cancer, including breast cancer, among women at high risk of cardiovascular disease, according to a study in the November 5 issue of JAMA.
New drug target in obesity: Fat cells make lots of melanin
As millions of Americans gear up for the Thanksgiving holiday, a new research report published online in The FASEB Journal, may provide some relief for those leery of having a second helping.
Mounting evidence shows health benefits of grape polyphenols
A growing body of research data suggests that consuming foods rich in polyphenols from grapes, including red wine, helps reduce the risk of heart disease, according to a review article in the November issue of Nutrition Research.
Grapes may aid a bunch of heart risk factors, animal study finds
Could eating grapes help fight high blood pressure related to a salty diet? And could grapes calm other factors that are also related to heart diseases such as heart failure? A new University of Michigan Cardiovascular Center study suggests so.
First comprehensive genomic study of common cold reveals new treatment targets
Today, scientists from Procter & Gamble (P&G), the University of Calgary and the University of Virginia announced results from the first study to examine the entire human genome's response to the most common cold virus, human rhinovirus.
Purple tomatoes: The richness of antioxidants against tumors
Researchers from the John Innes Centre in Norwich, Great Britain, in collaboration with other European centres participating to the FLORA project, have obtained genetically modified tomatoes rich in anthocyanins, a category of antioxidants belonging to the class of flavonoids.
Green tea may delay onset of type 1 diabetes
A powerful antioxidant in green tea may prevent or delay the onset of type 1 diabetes, Medical College of Georgia researchers say.
More Antioxidant Current Events and Antioxidant News Articles
 | The Antioxidant Miracle: Put Lipoic Acid, Pycnogenol, and Vitamins E and C to Work for You by Lester Packer, Carol Colman Imagine there was an easy way you could keep your heart strong, your mind sharp, and your body youthful. Imagine this program could keep you young, improve your sex life, prevent cancer and heart disease, and keep your skin supple and wrinkle-free. And perhaps best of all, imagine this was something readily available at your local drugstore or natural food store. These and other benefits are the... |
 | The Super Antioxidant Diet and Nutrition Guide: A Health Plan for the Body, Mind, and Spirit by Robin Jeep, Sherie Pitman Ellington, Richard Couey PhD A diet rich in antioxidants helps prevent cancer, diabetes, arthritis, excessive weight gain, and premature aging. The Super Anti-oxidant Diet and Nutrition Guide is a total health plan that helps readers adopt and live a lifestyle that unlocks the natural power of antioxidants for superior health.Gourmet chef and former marketing director for Whole Foods Market, Robin Jeep offers a plan that is... |
 | The Antioxidant Save-Your-Life Cookbook: 150 Nutritious High-Fiber, Low-Fat Recipes to Protect Yourself Against the Damaging Effects of Free Radicals (Newmarket Jane Kinderlehrer Smart Food Series) by Jane Kinderlehrer, Daniel A., M.D. Kinderlehrer From the acclaimed nutrition expert and author of the Smart Food Cookbook series (over 200,000 sold) comes health insurance in every bite: delicious, time-saving, antioxidant-rich recipes, low in fat and calories, high in fiber and nutrients, with NO white flour, hydrogenated fats, or chemical additives. "Antioxidants are like guardian angels. . . . The more you have working for you, the better... |
 | Antioxidants Against Cancer (Ralph Moss on Cancer) by Ralph W. Moss Learn how antioxidants reduce the side-effects of chemotherapy and may even make it more... |
 | The Antioxidant Cookbook: A Nutritionist's Secret Strategy by Michael Weiner Here is your secret strategy for delicious and healthy eating! the is a must for everyone interested in holistic health, fitness, anti-aging enhancement, lifestyle improvement, and fabulous food! Dr.Weiner shares his strategy for delicious healthful low calorie low cholesterol high-potency antioxidant superfoods. His lifelong love for ethnic foods and his nutritional wisdom blend... |
 | Antioxidants: Natural Defense Against Oxidative Stress (Woodland Health) by Barbara Wexler |
 | Antioxidant Nutrition: Nature's Protectors Against Aging, Cancer, and Degenerative Diseases by Rita Greer, Dr. Robert Woodward This illuminating guide explores one of the fastest growing areas of vitamin... |
 | The Antioxidant Save-Your-Life Cookbook: 150 Nutritious and Delicious Recipes by Jane Kinderlehrer, Daniel A. Kinderlehrer This must-have cookbook is packed with delicious recipes using antioxidant-rich foods that could save your life.Here are 150 family- and kitchen-tested recipes, loaded with antioxidants to neutralize the damaging effects of free radicals, without sacrificing variety or flavor. Their ingredients are high in vitamins C, E, and A, as well as selenium and beta-carotene. Among the many medical... |
 | Understanding the Antioxidant Controversy: Scrutinizing the "Fountain of Youth" (The Praeger Series on Contemporary Health and Living) by Paul E. Milbury, Alice C. Richer Current scientific theory presumes free radicals--unstable by-products produced by normal human metabolic processes-- damage the body, resulting in chronic health problems and degenerative changes associated with aging. Nutritional products on the market today promise that antioxidants can reduce--possibly even reverse--damage caused by these free radicals. If true, that would mean less chronic... |
 | User's Guide to Antioxidant Supplements: Learn How Natural Antioxidants Can Reduce Your Risk of Heart Disease, Cancer, and Alzheimer's (Basic Health Publications User's Guides) by Jack Challem, Melissa Block Thousands of medical and scientific studies have shown that antioxidants can slow down the aging process, reduce the risk of common degenerative diseases, and reverse the progression and symptoms of Alzheimer's disease, arthritis, heart disease, and dozens of other diseases. This User's Guide describes all the health benefits of antioxidant... |
| © 2008 BrightSurf.com |