Showing posts with label broccoli. Show all posts
Showing posts with label broccoli. Show all posts

Wednesday, February 15, 2017

More reasons to eat your broccoli

In continuation of my update on broccoli

University of Illinois researchers have identified candidate genes controlling the accumulation of phenolic compounds in broccoli. Consumption of phenolic compounds, including certain flavonoids, is associated with a lower risk of coronary heart disease, type II diabetes, asthma, and several types of cancer.
Agricart Broccoli pack of 2
"Phenolic compounds have good antioxidant activity, and there is increasing evidence that this antioxidant activity affects biochemical pathways affiliated with inflammation in mammals. We need inflammation because it's a response to disease or damage, but it's also associated with initiation of a number of degenerative diseases. People whose diets consist of a certain level of these compounds will have a lesser risk of contracting these diseases," explains U of I geneticist Jack Juvik.
The researchers crossed two broccoli lines and tested their progeny in terms of total phenolic content and their ability to neutralize oxygen radicals in cellular assays. They then used a genetic technique called quantitative trait locus analysis to search for the genes involved in generating phenolics in the most promising progeny.
By identifying the genes involved in accumulating these compounds, the researchers are one step closer to breeding broccoli and related Brassica vegetables like kale and cabbage with mega-doses of phenolic compounds.
"It's going to take awhile," Juvik notes. "This work is a step in that direction, but is not the final answer. We plan to take the candidate genes we identified here and use them in a breeding program to improve the health benefits of these vegetables. Meanwhile, we'll have to make sure yield, appearance, and taste are maintained as well."
The good news is that phenolic compounds are flavorless and stable, meaning the vegetables can be cooked without losing health-promoting qualities.
Once these vegetables are consumed, the phenolic compounds are absorbed and targeted to certain areas of the body or concentrated in the liver. Flavonoids spread through the bloodstream, reducing inflammation through their antioxidant activity.
"These are things we can't make ourselves, so we have to get them from our diets," Juvik says. "The compounds don't stick around forever, so we need to eat broccoli or some other Brassica vegetable every three or four days to lower the risk of cancers and other degenerative diseases."

Monday, August 10, 2015

Plant-derived compound targets cancer stem cells

In continuation of my updates on cauliflower, cabbage, broccoli

A compound and an enzyme that occur naturally in cruciferous vegetables--cauliflower, cabbage, broccoli and Brussels sprouts--may help prevent recurrence and spread of some cancers, according to researchers. When they treated human cervical cancer stem cells with phenethyl isothiocyanate (PEITC) in a Petri dish, about 75 percent died within 24 hours using a 20-micromolar concentration of the compound.  
Phenethyl isothiocyanate.svg

A compound and an enzyme that occur naturally in cruciferous vegetables -- cauliflower, cabbage, broccoli and Brussels sprouts -- may help prevent recurrence and spread of some cancers, according to associate professor Moul Dey of the South Dakota State University Department of Health and Nutritional Sciences. She has been doing research on phenethyl isothiocyanate (PEITC) through a five-year grant from the National Institutes of Health for more than $875,000 and support from the South Dakota Agricultural Experiment Station.
The precursor compound and enzyme in cruciferous vegetables combine during the chewing process to produce PEITC within the body, Dey explained. Though PEITC is a good candidate to develop as a dietary supplement, studies have also shown that sufficient cancer-preventing levels of PEITC can be achieved through diet alone.
Role of cancer stem cells
When cancer is treated with chemotherapy or radiation, the tumor disappears but the cancer stem cells live on. "These cells are frequently resistant to conventional therapies," Dey said.
Though cancer stem cells make up less than 5 percent of a tumor, they can regenerate the original tumor and migrate through the blood vessels spreading cancer to secondary locations.
"These tiny cells are very difficult to detect in a tumor," Dey pointed, adding that for a long time scientists did not even know they existed. "It's like finding a needle in a haystack."

Promising Results
When Dey and her team treated human cervical cancer stem cells with PEITC in a Petri dish, about 75 percent died within 24 hours using a 20-micromolar concentration of the compound.
In other experiments, Dey and her team have found that lower concentrations of PEITC are still very effective. Working with SDSU veterinary pathologist David Knudsen, Dey and her team found that 10-micromolar concentrations of PEITC can dramatically prevent the spread of cancer in mouse lung tissue.

"Preliminary evidence has shown a quite dramatic difference between the lung sections from the PEITC-treated and untreated mice," Dey said. However, she cautioned, although mice provide a model for human diseases, further testing is necessary to determine whether outcomes will be similar in humans.

Based on information from scientific literature, the concentrations of PEITC that Dey and her team typically use in their research -- 5 to 15 micromolars -- may be achieved through diets rich in certain types of cruciferous vegetables, particularly land and watercress.

Next, she and her team will examine how PEITC is able to overcome the resistance mechanisms that protect these stem cells from other drugs. "That's the second piece of this work," Dey added.

Tuesday, July 7, 2015

Enriched broccoli reduces cholesterol



In continuation of my update on broccoli


Including a new broccoli variety in the diet reduces blood LDL-cholesterol levels by around 6 percent, according to the results of human trials. The broccoli variety was bred to contain two to three times more of a naturally occurring compound glucoraphanin. It is now available in supermarkets in England, under the name Beneforte.



The broccoli variety was bred to contain two to three times more of a naturally occurring compound glucoraphanin. It is now available in supermarkets, under the name Beneforte.
Working with colleagues at the University of Reading, in two independent studies, the researchers gave a total of 130 volunteers 400g of the high glucoraphanin broccoli per week to include in their normal diet.
After 12 weeks, they saw the levels of LDL-cholesterol in their blood drop by an average of about 6%. Elevated LDL cholesterol is a recognised risk factor for heart disease. Although the reduction seen in these trials is small, at a population level, a 1% reduction in LDL-cholesterol has been associated with a 1-2% reduction in risk of coronary artery disease.
Glucoraphanin is thought to work by helping our bodies retune cellular metabolism. Mitochondria, the energy centres of the cell, convert sugars and fats into energy. But if they aren't working efficiently, or if we overload them with too much fat or sugar, one response is to channel excess into cholesterol.
Glucoraphanin is converted in the body to sulphoraphane, which turns on specific genes that activate our bodies' defences against this happening, rebalancing metabolism away from the production of LDL cholesterol. This new study, published in the journal Molecular Nutrition and Food Research, provides the evidence for this reduction.
High glucoraphanin Beneforté broccoli was developed using traditional breeding techniques at IFR's partners on the Norwich Research Park, the John Innes Centre and the University of East Anglia, and Seminis Vegetable Seeds Inc.
This study was funded by the Biotechnology and Biological Sciences Research Council (BBSRC), Innovate UK and Seminis Vegetable Seeds Inc.
Other foods or ingredients that have been proven to lower LDL-cholesterol are beta-glucans in oats and plant stanols. These work by reducing cholesterol absorption into the body. As glucoraphanin works by reducing how much our bodies make, eating these foods together is likely to have an additive effect.



Monday, April 23, 2012

Experts share top 5 springtime fruits and vegetables that fight cancer

Experts share top 5 springtime fruits and vegetables that fight cancer: The price of springtime fruits and vegetables seems to increase each year. But when buyers break this expense down to cents, they realize stocking up on these cancer-fighting foods still makes economical sense, say experts from The University of Texas MD Anderson Cancer Center.

Wednesday, April 4, 2012

Cruciferous vegetable intake may boost survival of breast cancer patients


In continuation of my update on Broccoli and cabbage
Researchers with Vanderbilt-Ingram Cancer Center and the Shanghai Cancer Institute in China have discovered a possible link between a diet rich in certain vegetables and a decreased risk for breast cancer.
Corresponding author Jay Fowke, Ph.D., assistant professor of Medicine, said 3,035 women diagnosed with breast cancer were identified through the Shanghai Cancer Registry. They were closely matched with 3,037 women randomly chosen from the general population.

Wednesday, November 2, 2011

Leafy greens (broccoli and cabbage) protect the gut’s immune system

In continuation of my update on Broccoli and its usefulness 

Research from the Babraham Institute and the Medical Research Council (MRC), were able to prove that leafy greens protect a certain type of immune cell known as intra-epithelial lymphocytes (IELs). IELs play a crucial role in keeping the gut lining healthy and preventing ‘bad’ bacteria from entering the gut while maintaining the balance of ‘good’ bacteria which help us to break down our food. Researchers studied mice fed a diet containing many vitamins and minerals known to be essential for good health, but which lacked vegetables. Over three weeks the mice lost 70 to 80 per cent of IELs.


The research showed for the first time that mice fed a diet low in vegetables rapidly lose these specialised immune cells lining the intestinal tract, but not other immune cells. The team discovered that IELs depend on chemical signals from the digestive breakdown products of a substance called Indole-3-carbinol, high levels of which are found in vegetables like broccoli and cabbage.......

Ref :1. http://www.mrc.ac.uk/Newspublications/News/MRC008231
2.  http://www.sciencedirect.com/science/article/pii/S0092867411011366

Wednesday, September 28, 2011

Broccoli, Cabbage, and other Veggies May Protect Against Colon Cancer


In continuation of my update on the usefulness of broccoli 
Austrailian researchers examined the diets of 918 colorectal cancer patients and 1,021 people with no history of the disease and found that consumption of certain vegetables and fruits were associated with a decreased risk of cancer in the proximal and distal colon, that is, the upper and lower portions of the colon.


Consumption of brassica vegetables (also known as cole crops) such as broccoli, kale, cauliflower, turnips and cabbage, for example, appeared to reduce the risk of cancer in the upper colon, while both total fruit and vegetable intake (and total vegetable intake alone) reduced the risk of cancer in the lower colon.
They also found that eating more apples and dark, yellow vegetables was linked with a significantly reduced risk of lower colon cancer...


More....

Saturday, July 9, 2011

Friday, April 1, 2011

Researchers identify drug candidate that can treat prostate cancer

Drug candidate, developed from a naturally occurring anti-cancer agent found in cruciferous vegetables such as cabbages and broccoli, for prostate cancer...
Researchers identify drug candidate that can treat prostate cancer

Friday, January 28, 2011

Discovery of a Biochemical Basis for Broccoli's Cancer-Fighting Ability


Fung-Lung Chung and colleagues showed in previous experiments that substances called isothiocyanates (or ITCs)  found in broccoli, cauliflower, watercress, and other cruciferous vegetables appear to stop the growth of cancer. But nobody knew exactly how these substances work, a key to developing improved strategies for fighting cancer in humans. The tumor suppressor gene p53 appears to play a key role in keeping cells healthy and preventing them from starting the abnormal growth that is a hallmark of cancer. When mutated, p53 does not offer that protection, and those mutations occur in half of all human cancers. ITCs might work by targeting this gene, the report suggests.

Scientists studied the effects of certain naturally-occurring ITCs on a variety of cancer cells, including lung, breast and colon cancer, with and without the defective tumor suppressor gene. They found that ITCs are capable of removing the defective p53 protein but apparently leave the normal one alone. Drugs based on natural or custom-engineered ITCs could improve the effectiveness of current cancer treatments or lead to new strategies for treating and preventing cancer.

Monday, August 30, 2010

Plantain and broccoli fiber help in Crohn’s disease........















In continuation of my update on dietary benefits of broccoli....

New research from University School of Clinical Sciences in Liverpool, lead by Prof. Jonathan Rhodes,  suggests that plant fibers in plantains and broccoli can help prevent relapses of Crohn's disease. This disease is a long term disease of the gut that is characterized by inflammation of the lining of the digestive system, with symptoms including diarrhea and abdominal pain. Scientists believe that rise in processed food and decrease in fibers in diet could be a reason for rise of incidence of this disease.

For this study the scientists tested a range of soluble plant fiber to judge their effect on Crohn's disease. Soluble plant fiber is the kind which comes out of vegetables when they are boiled in water. The results of the study showed that soluble fiber from plantain and broccoli specifically stopped 45% to 82% of the bacteria E.coli from crossing into cells in the intestine. Fiber from leek and apple had no effect.

The sticky E. coli are capable of penetrating the gut wall via special cells, called M-cells that act as 'gatekeepers' to the lymphatic system. Studies have shown that patients with Crohn's disease this leak leads to chronic inflammation in the gut. This study shed that plantain soluble fibers prevented the uptake and transport of E. coli across M.cells. They compared these results with tests on polysorbate-80 - a fat emulsifier used in processed food to bind ingredients together. The tests revealed that polysorbate had the opposite effect to plantain fibers, and encouraged the movement of bacteria through the cells.

The research shows that different dietary components can have powerful effects on the movement of bacteria through the bowel. We  know  the general health benefits of eating plantain and broccoli, which are both high in vitamins and minerals, but until now we have not understood how they can boost the body's natural defences against infection common in Crohn's patients. This work, suggests that it might be important for patients with this condition to eat healthily and limit their intake of processed foods.

Sunday, July 18, 2010

Anti-Cancer Effects of Broccoli Ingredient Explained......

In continuation of my update on the dietary benefits of broccoli and how it helps to reduce the cancer risk....

Researchers writing in BioMed Central's open access journal Molecular Cancer have found that sulforaphane, a chemical found in broccoli, interacts with cells lacking a gene called PTEN to reduce the chances of prostate cancer developing.

Richard Mithen, from the Institute of Food Research, an institute of BBSRC, worked with a team of researchers on Norwich Research Park, UK, to carry out a series of experiments in human prostate tissue and mouse models of prostate cancer to investigate the interactions between expression of the PTEN gene and the anti cancer activity of sulforaphane.

"PTEN is a tumour suppressor gene, the deletion or inactivation of which can initiate prostate carcinogenesis, and enhance the probability of cancer progression. We've shown here that sulforaphane has different effects depending on whether the PTEN gene is present."


The research team found that in cells which express PTEN, dietary intervention with SF has no effect on the development of cancer. In cells that don't express the gene, however, sulforaphane causes them to become less competitive, providing an explanation of how consuming broccoli can reduce the risk of prostate cancer incidence and progression.


Ref :  http://www.molecular-cancer.com/content/pdf/1476-4598-9-189.pdf

Saturday, July 3, 2010

How Dietary Supplement (Broccoli, Cabbage) May Block Cancer Cells....

In continuation of  how dietary supplement may block cancer cells... In my earlier blogs,  I have mentioned that, natural compound formed during the autolytic breakdown of glucobrassicin present in food plants of the Brassica genus, including broccoli, cabbage, Brussels sprouts, cauliflower and kale) are responsible for the anticancer activity associated with broccoli and other Brassica genus.

Now researchers at the Ohio State University Comprehensive Cancer Center-Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (OSUCCC-James) have discovered how a substance  (see below structure) that is produced when eating broccoli and Brussels sprouts can block the proliferation of cancer cells.

Compelling evidence indicates that the substance, indole-3-carbinol [(above structure, I3C) : Glucobrassicin (right structure) is a type of glucosinolate that can be found in almost all cruciferous plants, such as cabbages  and broccoli, degradation by the enzyme myrosinase is expected to produce an isothiocyanate, indol-3-ylmethylisothiocyanate- which is unstable and hydrlyses to give, I3C, as most dominant degradation product], may have anticancer effects and other health benefits, the researchers say. These findings show how I3C affects cancer cells and normal cells.

The laboratory and animal study discovered a connection between I3C and a molecule called Cdc25A, which is essential for cell division and proliferation. The research showed that I3C causes the destruction of that molecule and thereby blocks the growth of breast cancer cells.

"Cdc25A is present at abnormally high levels in about half of breast cancer cases, and it is associated with a poor prognosis," says study leader Xianghong Zou, assistant professor of pathology at the Ohio State University Medical Center.
For this study, Zou and his colleagues exposed three breast cancer cell lines to I3C. These experiments revealed that the substance caused the destruction of Cdc25A. They also pinpointed a specific location on that molecule that made it susceptible to I3C, showing that if that location is altered (because of a gene mutation), I3C no longer causes the molecule's destruction.

Last, the investigators tested the effectiveness of I3C in breast tumors in a mouse model. When the substance was given orally to the mice, it reduced tumor size by up to 65 percent. They also showed that I3C had no affect on breast-cell tumors in which the Cdc25A molecule had a mutation in that key location.

Ref :  American Association for Cancer Research : Cancer Prevention Research, Xianghong Zou et al.,

Monday, May 17, 2010

Broccoli component limits breast cancer stem cells, study finds

In continuation of my earlier blog article " Broccoli sprouts may help prevent stomach cancer !....
I found this article interesting  to sharing with...
Broccoli component limits breast cancer stem cells, study finds