Showing posts sorted by relevance for query polyphenols. Sort by date Show all posts
Showing posts sorted by relevance for query polyphenols. Sort by date Show all posts

Friday, March 16, 2018

Wine polyphenols may be good for oral health

Sipping wine is good for your colon and heart, possibly because of the beverage's abundant and structurally diverse polyphenols. Now researchers report in ACS' Journal of Agricultural and Food Chemistry that wine polyphenols might also be good for your oral health.
Traditionally, some health benefits of polyphenols have been attributed to the fact that these compounds are antioxidants, meaning they likely protect the body from harm caused by free radicals. However, recent work indicates polyphenols might also promote health by actively interacting with bacteria in the gut. That makes sense because plants and fruits produce polyphenols to ward off infection by harmful bacteria and other pathogens. M. Victoria Moreno-Arribas and colleagues wanted to know whether wine and grape polyphenols would also protect teeth and gums, and how this could work on a molecular level.
The researchers checked out the effect of two red wine polyphenols, as well as commercially available grape seed and red wine extracts, on bacteria that stick to teeth and gums and cause dental plaque, cavities and periodontal disease. Working with cells that model gum tissue, they found that the two wine polyphenols in isolation -- caffeic and p-coumaric acids -- were generally better than the total wine extracts at cutting back on the bacteria's ability to stick to the cells. When combined with the Streptococcus dentisani, which is believed to be an oral probiotic, the polyphenols were even better at fending off the pathogenic bacteria. The researchers also showed that metabolites formed when digestion of the polyphenols begins in the mouth might be responsible for some of these effects.​
Ref : https://www.acs.org/content/acs/en/pressroom/newsreleases/2018/february/wine-polyphenols-could-fend-off-bacteria-that-cause-cavities-and-gum-disease.html

Tuesday, July 12, 2016

Combination of sugar and polyphenols may prevent occurrence of neurodegenerative disease

Catherine Aaron and Gabrielle Beaudry were 17 when they knocked on the door of the laboratory of Alex Parker, a neuroscience researcher at the University of Montreal Hospital Research Centre (CRCHUM). While students at Collège Jean-de-Brébeuf in Montreal, they were looking for a mentor for an after-school research project. Two and half years later, the results of this scientific adventure were published today in theJournal of Agricultural and Food Chemistry.

"We wanted to test the effect of a natural product on a neurodegenerative disease such as Alzheimer's. Professor Parker had already discovered that sugar prevents the occurrence of amyotrophic lateral sclerosis (ALS) in an animal model of the disease, the C. elegans worm. That's how we got the idea of maple syrup, a natural sugar produced in Quebec," said Beaudry.

Supervised by PhD student Martine Therrien and Alex Parker, Aaron and Beaudry added maple syrup to the diet of these barely 1 mm-long nematodes. "We just gave them a supplement of maple syrup at various concentrations and compared with a control group that had a normal diet," said Aaron. "After twelve days, we counted under the microscope the worms that were moving and those that were paralyzed. The worms that had consumed the highest dose of syrup were much less likely to be paralyzed."

Alex Parker's C. elegans worms are genetically modified to express a protein involved in ALS in motor neurons - TDP-43. "When they are adults, around 12 days, their motor neurons break down. Normally, at two weeks of life, 50% of the worms are completely paralyzed. But among those that received a diet enriched with 4% maple syrup, only 17% were paralyzed. We can therefore conclude that maple syrup protects neurons and prevents the development of amyotrophic lateral sclerosis in C. elegans worms," said Parker, a researcher at the CRCHUM and professor at the Faculty of Medicine, University of Montreal.

How can we explain this dramatic effect? "Sugar is good for the nervous system. Diseased neurons require more energy to combat toxic proteins. But maple syrup is rich in polyphenols, powerful antioxidants found in certain foods. We isolated phenols contained in the maple syrup, and we showed that two polyphenols in particular, gallic acid and catechol, have a neuroprotective effect. In pure maple syrup, these polyphenols are found in low concentrations. Probably a combination of sugar and polyphenols prevents the occurrence of the disease in worms," said Therrien, a PhD student at the CRCHUM.

Combination of sugar and polyphenols may prevent occurrence of neurodegenerative disease: Catherine Aaron and Gabrielle Beaudry were 17 when they knocked on the door of the laboratory of Alex Parker, a neuroscience researcher at the University of Montreal Hospital Research Centre. While students at Collège Jean-de-Brébeuf in Montreal, they were looking for a mentor for an after-school research project. Two and half years later, the results of this scientific adventure were published today in the Journal of Agricultural and Food Chemistry.

Sunday, September 6, 2009

Fruits better than prviously thought !.......

Polyphenol content in fruits usually refers to extractable polyphenols, but a Spanish scientist working at the Institute of Food Research in Norwich analysed apple, peach and nectarine. She found that nonextractable polyphenol content is up to five times higher than extractable compounds. Its really interesting and that might be the reason why our forefathers used to insist to eat whole fruits (though they might not have studied so exhaustively... !).  

The interesting findings like,  "polyphenols need to be treated with acid to extract them from the cell walls of fruit in the lab" will help at least now onwards to collect all the useful polyphenols (proanthocyanidins, ellagic acid and catechin)  which without this new findings might have gone as waste.  Dr Paul Kroon from IFR explains: “In the human body these compounds will be fermented by bacteria in the colon, creating metabolites that may be beneficial, for example with antioxidant activity. 

Hope these  nonextractable polyphenols, (which mostly escape analysis and are not usually considered in nutritional studies),  will play a major part of bioactive compounds in the diet  in the days to come. Congrats Professor Saura-Calixto, for this  achievement.....


Saturday, July 16, 2011

Grape seed polyphenols may help prevent Alzheimer's disease

 In continuation of my update on the usefulness of polyphenols....
Grape polyphenols are also called Vineatrols (see structure : vineatrol / trans-resveratrol)



Friday, January 3, 2014

New role for milk: Delivering polyphenols with anti-cancer activity

Polyphenols found in tea manifest anti-cancer effects but their use is limited by poor bioavailability and disagreeable taste. A new study in the Journal of Dairy Science® finds that when epigallocatechin gallate (EGCG), the major extractable polyphenol in green tea and the most biologically active, when diluted in skim milk or other milk complexes remains bioactive and continues to reduce colon cancer cell proliferation in culture at concentrations higher than 0.03 mg of EGCG/mL.


Saturday, January 16, 2010

Pomegranates May Prevent Growth of Breast cancer cells.....

We know that Pomegranate aril juice provides about 16% of an adult's daily vitamin C requirement per 100 ml serving, and is a good source of vitamin B5 (pantothenic acid), potassium and antioxidant polyphenols.  The most abundant polyphenols in pomegranate juice are the hydrolyzable tannins called punicalagins which have free-radical scavenging properties in laboratory experiments. Punicalagins are absorbed into the human body and may have dietary value as antioxidants. Other phytochemicals include polyphenols catechins, gallocatechins, and anthocyanins such as prodelphinidins, delphinidin, cyanidin, and pelargonidin.   Many food and dietary supplement makers have found advantages of using pomegranate phenolic extracts as ingredients in their products instead of the juice. One of these extracts is ellagic acid which may become bioavailable only after parent molecule punicalagins are metabolized. However, ingested ellagic acid from pomegranate juice does not accumulate in the blood in significant quantities and is rapidly excreted. Accordingly, ellagic acid from pomegranate juice does not appear to be biologically important in vivo.

Now researchers lead by Dr Shiuan Chen, director of the Division of Tumour Cell Biology, and Dr Lynn Adams, a research fellow at the centre's Beckman Research Institute have found that Pomegranates contain a group of compounds called ellagitannins ( glucosidesof elligacic acid) may prevent the growth of breast cancer cells. Researchers tried to determine whether chemicals in pomegranates could block the action of an enzyme called aromatase. Aromatase plays a key role in driving the growth of some forms of breast cancer by helping the body produce the female sex hormone oestrogen. Breast cancer drugs like anastrozole are designed to block its action.

The researchers screened ten ellagitannin-like compounds and found that one in particular, Urolithin B, (see above structure) significantly inhibited breast cancer cell growth in the laboratory. Its interesting to note that phytochemicals in pomegranates to exhibit this property (earlier the same authors have reported the inhibition of aromatase by grapes (phytochemicals).

Though further studies like in vivo are essential to further substantiate the in vitro studies (relatively high levels of ellagitannin compounds were required to demonstrate an anti-proliferative effect on cultured breast cancer cells) are essential (because of the fact that  the ellagitannins are not well absorbed into blood when provided in the diet), still in my opinion its a good finding......


Ref : http://cancerpreventionresearch.aacrjournals.org/cgi/content/abstract/3/1/108


Tuesday, March 2, 2010

Baked rhubarb may help fight cancer....

Rhubarb (herbaceous perennial plants growing from short, thick rhizomes) is a  group of plants that belong to the genus Rheum in the family Polygonaceae.  They have large leaves that are somewhat triangular shaped with long fleshy petioles and small flowers. While the leaves are toxic, the plants have medicinal uses, but most commonly the plant's stalks (see picture, source : Wikipedia) are cooked and used in pies and other foods for their tart flavour.  A number of varieties have been domesticated for human consumption, most of which are recognised as Rheum x hybridum by the Royal Horticultural Society.

Rhubarb (stem & roots) has been used as a strong laxative (the two  - anthraquinones emodin and rhein are responsible). Rubarb has been used in traditional Chinese medicine & medieval Arabic and European prescriptions. The rhizomes ('roots') contain stilbene compounds (including rhaponticin) which seem to lower blood glucose levels in diabetic mice.

Now,  researchers from Biomedical Research Center at Sheffield Hallam University, lead by Dr. Nikki Jordan-Mahy, have come up with new findings. Researchers found that baking British garden rhubarb for 20 minutes dramatically boosted levels of anti-cancer chemicals called polyphenols. Previous research has shown that polyphenols selectively kill or prevent the growth of cancer cells.

This is the first study to examine the benefits of British rhubarb, specifically a variety grown in South Yorkshire. Earlier research has studied Oriental medicinal rhubarb, which has been used in traditional Chinese medicine for thousands of years. 

Baking and slow stewing offered the best maintenance of colour through preservation of anthocyanin and the highest antioxidant capacity. Baking for 20 min provided well-cooked rhubarb with the highest antioxidant capacity and the highest anthocyanin content, which is important for the aesthetic quality of the dish.  

As per the claim by the researchers, LC–MS analysis putatively identified over 40 polyphenol components in raw rhubarb (including anthraquinone, stilbene, anthocyanin and flavonol derivatives.) Baking caused selective effects on the stability of the different polyphenol components. Initially, the yield of all components increased but there was a drastic decline in the relative stability of anthraquinone aglycones with increasing cooking time and initial evidence for the turnover of other anthraquinone derivatives was obtained. Researchers now plan to study the effect of rhubarb's polyphenols on leukemia.....

Tuesday, March 17, 2015

Honey offers new approach to fighting antibiotic resistance ............





In continuation of my update on Honey..

Honey, that delectable condiment for breads and fruits, could be one sweet solution to the serious, ever-growing problem of bacterial resistance to antibiotics, researchers said in Dallas* today. Medical professionals sometimes use honey successfully as a topical dressing, but it could play a larger role in fighting infections, the researchers predicted.

"The unique property of honey lies in its ability to fight infection on multiple levels, making it more difficult for bacteria to develop resistance," said study leader Susan M. Meschwitz, Ph.D. That is, it uses a combination of weapons, including hydrogen peroxide, acidity, osmotic effect, high sugar concentration and polyphenols -- all of which actively kill bacterial cells, she explained. The osmotic effect, which is the result of the high sugar concentration in honey, draws water from the bacterial cells, dehydrating and killing them.

In addition, several studies have shown that honey inhibits the formation of biofilms, or communities of slimy disease-causing bacteria, she said. "Honey may also disrupt quorum sensing, which weakens bacterial virulence, rendering the bacteria more susceptible to conventional antibiotics," Meschwitz said. Quorum sensing is the way bacteria communicate with one another, and may be involved in the formation of biofilms. In certain bacteria, this communication system also controls the release of toxins, which affects the bacteria's pathogenicity, or their ability to cause disease.

Meschwitz, who is with Salve Regina University in Newport, R.I., said another advantage of honey is that unlike conventional antibiotics, it doesn't target the essential growth processes of bacteria. The problem with this type of targeting, which is the basis of conventional antibiotics, is that it results in the bacteria building up resistance to the drugs.

Honey is effective because it is filled with healthful polyphenols, or antioxidants, she said. These include the phenolic acids, caffeic acid, p-coumaric acid and ellagic acid, as well as many flavonoids. "Several studies have demonstrated a correlation between the non-peroxide antimicrobial and antioxidant activities of honey and the presence of honey phenolics," she added. A large number of laboratory and limited clinical studies have confirmed the broad-spectrum antibacterial, antifungal and antiviral properties of honey, according to Meschwitz.

She said that her team also is finding that honey has antioxidant properties and is an effective antibacterial. "We have run standard antioxidant tests on honey to measure the level of antioxidant activity," she explained. "We have separated and identified the various antioxidant polyphenol compounds. In our antibacterial studies, we have been testing honey's activity against E. coliStaphylococcus aureus and Pseudomonas aeruginosa, among others."

Monday, June 14, 2010

Polyphenols in red wine and green tea halt prostate cancer growth, study suggests

In continuation of my update on Green Tea and EGCG........

"The profound impact that the antioxidants in red wine and green tea have on our bodies is more than anyone would have dreamt just 25 years ago," Weissmann added. "As long as they are taken in moderation, all signs show that red wine and green tea may be ranked among the most potent 'health foods' we know." ....

Polyphenols in red wine and green tea halt prostate cancer growth, study suggests

Monday, December 7, 2015

Cranberry juice consumption may protect against cardiovascular disease

In continuation of my updates on Cranberries

Results from a new study presented at the Cranberry Health Research Conference preceding the annual Berry Health Benefits Symposium 2015 in Madison, WI, revealed that cranberry juice consumption may play a role in protecting against cardiovascular disease. Presented by principal investigator, Ana Rodriguez-Mateos, PhD, from the Division of Cardiology, Pulmonology and Vascular Medicine at the University Duesseldorf, Germany, the research uncovered a potent, dose-dependent relationship between cranberry juice and improved vascular function. Because vascular dysfunction, including limitations in blood flow, is a central feature in the development of atherosclerosis - improving vascular function can have a powerful, beneficial effect on a person's cardiovascular health.

"Cranberry juice is a rich source of phytonutrients, including proanthocyanidins, anthocyanins and phenolic acids," explains Dr. Rodriguez-Mateos. "Due to this robust profile of polyphenols, our team sought to evaluate the immediate vascular impact of drinking one, 450 ml (or 16 ounces) glass of cranberry juice with a different range of concentrations of cranberry-polyphenols."


Tuesday, August 20, 2013

Scientists ID compounds that target amyloid fibrils in Alzheimer's, other brain diseases


The UCLA researchers, led by David Eisenberg, director of the UCLA-Department of Energy Institute of Genomics and Proteomics and a Howard Hughes Medical Institute investigator, report the first application of this technique in the search for molecular compounds that bind to and inhibit the activity of the amyloid-beta protein responsible for forming dangerous plaques in the brain of patients with Alzheimer's and other degenerative diseases.

o identify natural and synthetic compounds that might prevent the aggregation and toxicity of amyloid fibrils. Such studies have revealed that polyphenols, naturally occurring compounds found in green tea and in the spice turmeric, can inhibit the formation of amyloid fibrils. In addition, several dyes have been found to reduce amyloid's toxic effects, although significant side effects prevent them from being used as drugs. 

Armed with a precise knowledge of the atomic structure of the amyloid-beta protein, Jiang, Eisenberg and colleagues conducted a computational screening of 18,000 compounds in search of those most likely to bind tightly and effectively to the protein.
Those compounds that showed the strongest potential for binding were then tested for their efficacy in blocking the aggregation of amyloid-beta and for their ability to protect mammalian cells grown in culture from the protein's toxic effects, which in the past has proved very difficult. Ultimately, the researchers identified eight compounds and three compound derivatives that had a significant effect.
While these compounds did not reduce the amount of protein aggregates, they were found to reduce the protein's toxicity and to increase the stability of amyloid fibrils  a finding that lends further evidence to the theory that smaller assemblies of amyloid-beta known as oligomers, and not the fibrils themselves, are the toxic agents responsible for Alzheimer's symptoms.
The researchers hypothesize that by binding snugly to the protein, the compounds they identified may be preventing these smaller oligomers from breaking free of the amyloid-beta fibrils, thus keeping toxicity in check...

Thursday, February 23, 2017

Is Okra Good for Diabetes?

According to a handful of recent studies, okra may reduce symptoms of diabetes - a group of diseases that includes type 1 diabetes, type 2 diabetes, and gestational diabetes.
Okra on a table. Bowl of fried okra and other vegetables.
Diabetes claimed the lives of 75,578 Americans in 2013, according to the United States Centers for Disease Control and Prevention (CDC). In 2014,8.5 percent of adults worldwide had the condition, the World Health Organization (WHO) report. By 2030, diabetes may be the seventh leading cause of death.
A number of factors increase a person's risk of developing diabetes, including a family history of the disease. Lifestyle factors also play a role, so doctors routinely recommend diet changes and increased exercise to reduce blood sugar levels.
Okra may help reduce blood sugar levels in some people with diabetes. Research into the effects of this seedy vegetable is still in the early stages, but the results are promising.
Okra thrives in temperate climates, producing large hibiscus-like flowers that eventually give rise to green seed pods. It is a member of the mallow family, which includes a number of other popular plants, including hibiscus, cocoa, and cotton.
Scientifically known as Abelmoschus esculentus, okra may have been grown as long ago as 2000 BCE in Egypt.
Okra's flavor is mild, and the entire seed pod can be eaten. This vegetable-like fruit also has a long history in traditional medicine.
Kew Royal Botanic Gardens report that in Eastern traditional medicine, okra leaves and fruit were used as pain relievers, moisturizers, and to treat urinary disorders. In Congolese medicine, okra is used to encourage a safe delivery during childbirth.

Can okra help with symptoms of diabetes?

Diabetes can often be well-managed with increasing a hormone called insulin and other medical therapies. However, some people with diabetes wish to avoid regular insulin injections. Others experience blood sugar dips and other unpleasant side effects, and diabetes medications do not work for everyone.
The possibility that a readily available seed pod could help control diabetes is an exciting one. But there is no evidence yet that okra can cure diabetes. So far, the research on okra has only looked at its effects on animals. Human bodies are similar to animals, but not all research on animals has worked out in humans.

Increased absorption of sugar by muscles

A 2005 study published in Planta Medica investigated the effects of okra on rats with diabetes. A substance called myricetin is present in okra and some other foods, including red wine and tea.
Researchers isolated myricetin from okra, then administered it to the rat. The treatment increased absorption of sugar in the rats' muscles, lowering their blood sugar.
A 2012 Food Science and Human Wellness review points to a number of other laboratory and animal studies that have linked myricetin to lower blood sugar. The study argues that myricetin may also reduce other risk factors for diabetes.

Reduction in blood sugar spikes after eating

A 2011 study published in ISRN Pharmaceutics found a link between okra and decreased blood sugar spikes after eating.
Researchers fed rats liquid sugar as well as purified okra through a feeding tube. Rats who consumed the okra experienced a reduction in blood sugar spikes after feeding. The study's authors think this is because the okra blocked the absorption of sugar in the intestines.
The study also explored possible interactions between okra and metformin, a drug that can reduce blood sugar in type 2 diabetes. Okra appeared to also block absorption of metformin. This suggests that okra could reduce the effectiveness of metformin, and should therefore not be eaten at the same time as the drug.

Lower blood sugar levels

A 2011 study published in the Journal of Pharmacy and Bioallied Sciences points to a link between eating okra and lower blood sugar. The researchers allowed the blood sugar of rats with diabetes to stay level for 14 days. They then gave the rats powdered okra peel extracts and seeds dosages of up to 2,000 milligrams per kilogram of body weight.
There were no poisonous effects linked with these relatively high doses of okra. The rats that ate okra had reduced blood sugar levels after up to 28 days of eating okra. The study ended on day 28, so it is unclear if the effects on blood sugar levels would have lasted longer.

Considerations for using okra

Few studies have linked okra to negative side effects, but some negative side effects are possible:
  • Okra may make the drug metformin less effective.
  • Okra is high in substances known as oxalates. Oxalates may increase the risk of kidney stones in people vulnerable to kidney stones.
  • Okra can contain bacteria, pesticides, and other dangerous substances if it is not thoroughly washed. People should never consume rotten okra, frozen okra that is past its expiration date, or okra that has not been thoroughly washed.
  • People with an okra allergy should not consume okra. Those with an allergy to other plants in the mallow family, such as hibiscus or cotton, may also be allergic to okra.
  • Even if okra proves to be ineffective in fighting diabetes, it remains a safe snack for people with diabetes. A single serving of 100 grams contains just 30 calories, but offers a number of nutritional benefits:
    • Okra contains no saturated fats or cholesterol
    • Okra is rich in fiber, containing 9 percent of the recommended daily value (RDV)
    • Okra contains 8 percent of the RDV of calcium, 43 percent of the RDV of manganese, 10 percent of the RDV of iron and copper, and 44 percent of the RDV of vitamin K
    Okra is rich in protective substances known as antioxidants, including myricetin. According to the National Center for Complementary and Integrative Health, antioxidants may reduce oxidative stress, a process that damages cells in the body. Oxidative stress plays a role in the development of diabetes, as well as diseases such as:
    • Parkinson's disease
    • Alzheimer's disease
    • Cataracts
    • Macular degeneration
    • Heart and blood vessel disease
    • Cancer
    In addition to its antioxidant benefits, okra may also reduce tiredness. A 2015 study published in Nutrients found that substances found in okra seeds known as polyphenols and flavonoids could reduce fatigue.

Saturday, February 27, 2010

Bitter melon (gourd) extract inhibits breast cancer cell proliferation.....

Momordica charantia (picture, source : wikipedia) is a tropical  and subtropical vine of the family Cucurbitaceae, widely grown for edible fruit, which is among the most bitter of all vegetables. English names for the plant and its fruit include bitter melon or bitter gourd.  Extract of this vegetable is being popularized as a dietary supplement in Western Countries, since it is known to contain additional glycosides such as mormordin, vitamin C, carotenoids, flavanoids and polyphenols.

Momordica charantia has a non-nitrogenous neutral principle charantin (see structure  an insulin-like chemical that can lower blood sugar and cholesterol), and on hydrolysis gives glucose and a sterol.

Now researchers from Saint Louis University, have come up with an in interesting finding, i.e., bitter melon extract, a common dietary supplement, exerts a significant effect against breast cancer cell growth and may eventually become a chemopreventive agent against this form of cancer.

Previous research has shown Momordica charantia, to have hypoglycemic and hypolipidemic effects. Because of these effects, the extract is commonly used in folk medicines as a remedy for diabetes in locales such as India, China and Central America, as per  the claim by  researchers.

Using human breast cancer cells and primary human mammary epithelial cells in vitro, Dr. Ratna  Ray (Professor in the Department of Pathology at Saint Louis University) and colleagues found the bitter melon extract significantly decreased proliferation, of cell growth and division, and induced death in breast cancer cells. These early results offer an encouraging path for research into breast cancer. Researchers claim that, "this study may provide us with one more agent as an extract that could be used against breast cancer if additional studies hold true". 

Ray and colleagues are currently conducting follow-up studies using a number of cancer cell lines to examine the anti proliferative effect of the extract. They are also planning a preclinical trial to evaluate its chemopreventive efficacy by oral administration. Hope they come up with positive results.......

Ref : Dr. Ratna Ray et.al., Cancer Research, 10.1158/0008-5472, February 23, 2010.

Friday, March 19, 2021

Botanical drug is shown to help patients with head and neck cancers


In continuation of my update on Curcumin

In a UCLA-led phase I clinical trial, a new plant-based drug called APG-157 showed signs of helping patients fight oral and oropharyngeal cancers. These cancers are located in the head and the neck.

Image result for curcumin STRUCTURE

APG-157  (a botanical drug containing multiple polyphenols, including curcumin see above structure), is made up of multiple compounds produced by plants, including curcumin. UCLA Jonsson Comprehensive Cancer Center researchers found that treatment with this botanical drug resulted in high concentrations of curcumin and its byproducts circulating in the blood and absorbed by tumor tissues within three hours after being taken orally.
APG-157 reduced the concentration of cytokines—proteins involved in inflammation—in the saliva when administered to cancer patients. The therapy also reduced the relative abundance of Bacteroides species, a group of gram-negative bacteria. Gram negative refers to a group of dangerous bacteria that have an outer layer which hides them from the immune system. The relative abundance of gram-negative bacteria compared to the presence of other types of bacteria is correlated with oral cancer.
APG-157 also resulted in the expression of genes that are associated with attracting immune system T cells to the tumor area. This therapy could have a beneficial effect when used in combination with immunotherapy drugs that help immune system T cells recognize and kill tumors.
The treatment did not have any adverse effects on the study's participants.
Cancers of the head and neck account for 4% of all cancers. About 650,000 new cases are reported each year around the world. People with advanced head and neck cancers have a low survival rate and current treatment options such as surgery, radiation and chemotherapy can have adverse effects. Therefore, more effective and less toxic therapies are needed to help improve the quality of life and outcome for those with these cancers.
APG-157 is a botanical drug developed under the FDA's Botanical Drug Guidance, which includes requirements for production of plant-based therapies that are marketed as prescription medications. The drug is made up of botanical compounds including curcumin from the Curcuma longa plant, which is commonly referred to as turmeric and is a member of the ginger family.
Curcumin is one of the medicinally active or therapeutic molecules that has been tested as a possible treatment to help fight multiple cancers because it is an antioxidant that reduces swelling and inflammation. However, there is poor absorption into the bloodstream when curcumin is taken orally. In this study, UCLA researchers found that when APG-157 is taken through oral mucosal absorption, patients have high levels of curcumin circulating in their blood and absorbed by cancer tissues.
UCLA researchers conducted the study of APG-157 comparing 12 people who had oral and oropharyngeal cancer with a control group of 13 people who did not have cancer. The reason both the people with cancer and without cancer were part of the study was to show that the drug was not toxic to either people with cancer or those without cancer.
The medication was given each hour for three hours and was delivered as a lozenge that slowly dissolved in the mouth. Blood and saliva samples were collected beforehand—each of the three hours the medication was administered—and 24 hours after the last dosage. The medication was given to 12 people (some who had cancer and some who did not) and a placebo was given to 13 people. Blood and electrocardiogram tests did not show increased toxicity in the people who took the active medication in comparison with the people who took the placebo, regardless of whether they had cancer or not.
For the cancer patients who took the medication, there was a decrease in Bacteroides and an increase in T cells in the tumor tissue as compared to cancer patients who took the placebo. Neither the subjects nor the investigators knew whether the drug or a placebo was given when reviewing the blood and saliva test results of the blinded study.
APG-157 is a botanical  that has low toxicity. It works effectively to reduce inflammation that contributes to the growth of cancer cells. It also attracts T cells to the tumor micro-environment. When used in combination with immunotherapy drugs, APG-157 might have the ability to make the immune system more effective in attacking head and neck cancers. With potential to inhibit the growth of Bacteroides species, APG-157 could also improve cancer therapy through oral microbial changes.
https://acsjournals.onlinelibrary.wiley.com/doi/abs/10.1002/cncr.32644

Thursday, August 12, 2010

ProstaCaid (33-ingredient comprehensive polyherbal preparation) against prostate cancer......

We have seen  many benefits of natural products rich in  Quercetin,   Epigallocatechin gallate (EGCG) and many other polyphenol antioxidant from natural products like green tea, broccoli peaches and plums. Interestingly, now researchers from  Columbia University have come up with an interesting finding, i.e., ProstaCaid is a 33-ingredient comprehensive polyherbal preparation with supplements of vitamin C, vitamin D3, zinc, selenium, quercitin, 3,3′-diinodolymethane (DIM), and lycopene was able to stop abnormal cell growth and induce apoptosis (programmed cell death) in both hormone sensitive and hormone resistant prostate cancer cell lines at unusually low concentrations, which makes the findings more significant...

Herbal extracts include the extracts from turmeric root, saw palmetto berry, grape skin, pomegranate, pumpkin seed, pygeum bark, sarsaparilla root, green tea, and Japanese knotweed. Hence, it is rich in natural polyphenols, including quercetin, resveratrol, epigallocatechin gallate (EGCG), and ellagic acid, which have previously demonstrated anticancer potential. The unique formula contains 3 medicinal mushrooms grown on an herbal-enhanced medium. The mushrooms included are Phellinus linteus, Ganoderma lucidum, and Coriolus versicolor, each with known anticancer properties.

Researchers claim that, ProstaCaid was designed based on constituents that exhibit antiprolifetaive, antioxidant, and apoptotic activities; however, its efficacy and the mechanisms of action are yet to be examined. Researchers looked at the effectiveness of the preparation in suppressing several types of prostate cancer cell lines in culture and attempt to delineate the mechanism of action for justification in pursuing animal to determine efficicacy invivo.

Researchers conclude that, the anticancer activity of ProstaCaid may be ascribed to its polyphenolic flavonoids and curcuminoids derived from various herbs as well as other supplements, such as DIM. The preparation contains supplements such as quercetin (15%), Curcuma longa root extract complex with enhanced bioavailability (BCM-95; 20%), DIM (3%), and resveratrol (0.2%). Some of these components have shown a strong doseand time-dependent growth inhibition and apoptotic death in prostate cancer cells; 25 mM of quercetin inhibited about 50% PC3 cell growth for 72 hours. At 24 hours, 50 mM and 100 mM quercetin induced G2/M arrest and apoptosis, manifested by the decrease in G2/M-related protiens.

Researchers summarise  that,    ProstaCaid has anti-cancer activities in both AD and AI prostate cancer cells at very low concentrations (25 mg/mL). It also suggests that ProstaCaid inhibits cell growth and survival, at least through the inhibition of AKT and MAPK signaling. The effect on AI cell lines is especially of importance as there is presently no curative therapy for hormone refractory prostate cancer.

Researchers postulate that ProstaCaid may affect activity of Cdc2/cyclin B1 kinase by reducing this complex formation. Cdc2 could be dephosphorylated by Cdc25C and become inactive or be phosphorylated by protein kinase, such as Wee1, and then converted into an inactive form. They also suggest that more studies are needed in the future to test it and to define its upstream events in PC3 cells.

Ref : Jun Yan and Aaron E. Katz, Integr Cancer Ther 2010 9: 186

Wednesday, September 5, 2012

Green coffee beans show potential for losing weight..

In  a  study  presented,  at  the  American  Chemical  Society’s  spring     national meeting in San Diego, 16 over weight young adults took, by turns, a low dose of green coffee bean extract, a high  dose  of  the supplement, and a placebo. Though the study was small, the results were striking: Subjects lost an average of 17.5 pounds in 22 weeks and reduced their overall body weight by 10.5%.If green coffee extract were a medication seeking approval from the Food and Drug Administration, these results would make it a viable candidate — more than 35% of subjects lost more than 5% of their body weight, and weight loss appeared to be greater while subjects were taking the pills than when they were on the placebo.

Joe Vinson, the University of Scranton chemist who conducted the pilot study, said the findings should pave the way for more rigorous research on coffee bean extract’s effects. A larger trial involving 60 people is being planned.Vinson, whose research focuses on plant polyphenols and their effects on human health, said it appears that green coffee bean extract may work by reducing the absorption of fat and glucose in the gut; it may also reduce insulin levels, which would improve metabolic function. There were no signs of ill effects on any subjects, Vinson reported.

The study used a “cross-over” design, which allowed each subject to serve as his or her own comparison group. For six weeks, volunteers swallowed capsules three times a day, ingesting either 700 or 1,050 milligrams of green coffee extract a day or taking a placebo. After a two-week break, they moved, round-robin style, to another arm of the trial.Subjects did not change their calorie intake over the course of the trial. But the more extract they consumed, the more weight and fat they lost. Altogether, they reduced their body fat by 16%, on average.Of the 16 volunteers, six wound up with a body mass index in the healthful range.One downside is that the extract is “extremely bitter.” It would be difficult to take without a lot of water, Vinson reported.....

Ref : Detailed article read at

I found the following link more informative...

Sunday, March 7, 2010

Maple Syrup and Maple water contain abscisic acid.....

It has recently been reported that maple syrup contains polyphenols  and shows ORAC (Oxygen Radical Absorbance Capacity, a unit of measurement for antioxidants developed by the NIH)  values which compare to commonly eaten fruits and vegetables such as broccoli. Now, further research on maple syrup and its original form, maple water, conducted by Dr Yves Desjardins and his colleagues (at  Institut des neutraceutiques et des aliments fonctionnels), has revealed that both products contain equally important quantities of terpenes, and in particular, abscisic acid (see structure), a phytohormone whose health benefits have only recently been discovered. 

Vegetable physiologists and botanical researchers have known about the physiological properties of abscisic acid in the vegetable kingdom for a long time, but its health benefits for humans has only recently come to light. Along with other effects, it is known to stimulate insulin release through pancreatic cells and to increase sensitivity of fat cells to insulin, which makes it a potent weapon against  metabolic syndrome and diabetes. So its good to see that maple products contain a whole host of complementary active elements. The sugar molecules which provide the energy and sweetness in maple products are inherently complemented by abscisic acid molecules because they encourage insulin homeostasis

The authors conclude that, further studies are obviously needed before one can more accurately understand how eating maple products affects insulin behavior......

Ref : Dr Yves Desjardins et.al., (Emerging Topics in Health Effects of Fruits and Vegetables symposium which forms part of the 28th International Horticultural Congress in Portugal, August 22-27, 2010.)

Tuesday, November 6, 2012

Green tea found to reduce rate of some GI cancers

In continuation of my update on green tea.

We know that, Tea contains polyphenols or natural chemicals that include catechins like EGCG and ECG. Catechins have antioxidant properties and may inhibit cancer by reducing DNA damage and blocking tumor cell growth and invasion.

Now researchers have found that regular tea consumption, defined as  tea  consumption  at  least three times a week for more than six months, was  associated  with  a  17 percent reduced risk of all digestive cancers combined. A  further  reduction  in  risk  was  found to be  associated  with  a increased level of tea drinking. Specifically, those who consumed about two to three cups per day (at least 150 grams of tea per month) had a 21 percent reduced risk of digestive system cancers.

For all digestive system cancers combined, the risk was reduced by 27 percent among women who had been drinking tea regularly for at least 20 years," said Nechuta. "For colorectal cancer, risk was reduced by 29 percent among the long-term tea drinkers. These results suggest long-term cumulative exposure may be particularly important."