Turmeric extract suppresses fat tissue growth in rodent models
BOSTON (May 18, 2009) Curcumin, the major polyphenol found in turmeric, appears to reduce weight gain in mice and suppress the growth of fat tissue in mice and cell models. Researchers at the Jean Mayer USDA Human Nutrition Research Center on Aging at Tufts University (USDA HNRCA) studied mice fed high fat diets supplemented with curcumin and cell cultures incubated with curcumin. "Weight gain is the result of the growth and expansion of fat tissue, which cannot happen unless new blood vessels form, a process known as angiogenesis." said senior author Mohsen Meydani, DVM, PhD, director of the Vascular Biology Laboratory at the USDA HNRCA. "Based on our data, curcumin appears to suppress angiogenic activity in the fat tissue of mice fed high fat diets."
Meydani continued, "It is important to note, we don't know whether these results can be replicated in humans because, to our knowledge, no studies have been done."
Turmeric is known for providing flavor to curry. One of its components is curcumin, a type of phytochemical known as a polyphenol. Research findings suggest that phytochemicals, which are the chemicals found in plants, appear to help prevent disease. As the bioactive component of turmeric, curcumin is readily absorbed for use by the body.
Meydani and colleagues studied mice fed high fat diets for 12 weeks. The high fat diet of one group was supplemented with 500 mg of curcumin/ kg diet; the other group consumed no curcumin. Both groups ate the same amount of food, indicating curcumin did not affect appetite, but mice fed the curcumin supplemented diet did not gain as much weight as mice that were not fed curcumin.
"Curcumin appeared to be responsible for total lower body fat in the group that received supplementation," said Meydani, who is also a professor at the Friedman School of Nutrition Science and Policy at Tufts. "In those mice, we observed a suppression of microvessel density in fat tissue, a sign of less blood vessel growth and thus less expansion of fat. We also found lower blood cholesterol levels and fat in the liver of those mice. In general, angiogenesis and an accumulation of lipids in fat cells contribute to fat tissue growth."
Writing in the May 2009 issue of the Journal of Nutrition, the authors note similar results in cell cultures. Additionally, curcumin appeared to interfere with expression of two genes, which contributed to angiogenesis progression in both cell and rodent models.
"Again, based on this data, we have no way of telling whether curcumin could prevent fat tissue growth in humans." Meydani said. "The mechanism or mechanisms by which curcumin appears to affect fat tissue must be investigated in a randomized, clinical trial involving humans."
Source: Tufts University, Health Sciences
Related
- Indian spice reduces size of hemorrhagic strokeMon, 22 Sep 2008, 14:07:46 EDT
- Vitamin D, curcumin may help clear amyloid plaques found in Alzheimer's diseaseWed, 15 Jul 2009, 12:32:45 EDT
- Disabling enzyme allows mice to gorge without becoming obese, new study findsSun, 11 Jan 2009, 14:29:16 EST
- Probiotic found to be effective treatment for colitis in miceMon, 26 Oct 2009, 4:30:05 EDT
- 'Holy powder' ingredient makes membranes behave for better healthFri, 6 Mar 2009, 17:51:20 EST
Other sources
- Turmeric extract suppresses fat tissue growth in rodent modelsfrom Science CentricTue, 19 May 2009, 9:56:31 EDT
- Turmeric Extract Suppresses Fat Tissue Growth In Rodent Modelsfrom Science DailyMon, 18 May 2009, 12:22:08 EDT
- Turmeric extract suppresses fat tissue growth in rodent modelsfrom PhysorgMon, 18 May 2009, 10:56:19 EDT
- Turmeric extract suppresses fat tissue growth in rodent modelsfrom Science BlogMon, 18 May 2009, 10:42:27 EDT
- Turmeric Extract Suppresses Fat Tissue Growth in Rodent Modelsfrom Newswise - ScinewsMon, 18 May 2009, 9:28:27 EDT
Latest Science Newsletter
Get the latest and most popular science news articles of the week in your Inbox!Learn more about
Popular science news articles
- It's a gas: New discovery may lead to heartier, high-yielding plants
- Promoting healthy skepticism in the news: Helping journalists get it right
- Elsevier celebrates the 20th anniversary of the UN Convention for the Rights of the Child
- Small nanoparticles bring big improvement to medical imaging
- Chest ultrasound as useful as chest CT in the eval of pediatric patients with complicated pneumonia
- NIST demonstrates 'universal' programmable quantum processor
- Transcendental Meditation helped heart disease patients lower cardiac disease risks by 50 percent
- Nanoparticles used in common household items caused genetic damage in mice
- Boehringer Ingelheim announces Phase III data of flibanserin in pre-menopausal women with HSDD
- Heart disease found in Egyptian mummies
- African desert rift confirmed as new ocean in the making
- 1 shot of gene therapy and children with congenital blindness can now see
- Scientists discover influenza's Achilles heel: Antioxidants
- Cleanliness is next to godliness: New research shows clean smells promote moral behavior
- New evidence that dark chocolate helps ease emotional stress
No popular news yet
- Nanoparticles used in common household items caused genetic damage in mice
- Treatment with folic acid, vitamin B12 associated with increased risk of cancer, death
- New study links vitamin D deficiency to cardiovascular disease and death
- Continuous chest compression-CPR improved cardiac arrest survival in Arizona
- Largest gene study of childhood IBD identifies 5 new genes