Food & Function Blog

(–)-Epicatechin-3-gallate (ECG) protects against cancer: a review

25 Jan 2011

Green tea accounts for 20% of all tea consumed globally and it has long been associated with a reduced risk of cancer development. It is generally agreed that much of the chemopreventitive effects of green tea are due to its catechin compounds; (–)-Epicatechin-3-gallate (ECG) and (–)-Epigallocatechin-3-gallate (EGCG). These polyphenolic antioxidants have been widely studied and it has been shown that they inhibit the growth of various cancer cells in culture and demonstrate antitumor activity in in vivo models.

Despite a large body of literature on the cancer-preventative mechanisms of both EGCG and ECG, review articles to date solely focus on EGCG. Min-Hsiung Pan, Jen-Kun Lin and co-workers from Taiwan and the USA have now written an excellent review for Food & Function which provides a comprehensive overview of the anti-carcinogenic effects and molecular mechanisms of ECG.

To find out more read the full article ‘Multistage carcinogenesis process as molecular targets in cancer chemoprevention by epicatechin-3-gallate’ here.

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Food & Function 2011 Issue 1 Now Online

19 Jan 2011

By Anna Simpson, Executive Editor.

The first issue of Food & Function in 2011 is now online. The editorial, written by Gary Williamson, Steven Chen, Cesar Fraga and Sarah Ruthven, gives an overview of the journal’s highlights over the first three issues in 2010 and looks forward to the year ahead and plans for Volume 2. It can be read here.

The cover artwork of this issue is from Junji Terao from the University of Tokushima in Japan. Professor Terao is on our Advisory Board and the cover highlights his review on quercetin metabolism. Quercetin is an anti-oxidative flavanoid ubiquitously distributed in vegetables; onion and lettuce are particularly quercetin rich. Extensive studies using cell culture and animal models have clearly indicated anti-atherosclerotic and anti-carcinogenic effects, as well as protective action in the central nervous system. Quercetin exerts these effects through a wide variety of mechanisms which are still being elucidated. Professor Terao is one of the leaders in the field in this area and has spent many years studying how dietary quercetin reaches cell and tissue targets and modulates cellular processes.

Take a look at Food & Function 2011 issue 1 here!

Read the cover article by Professor Terao ‘Conjugated quercetin glucuronides as bioactive metabolites and precursors of aglycone in vivo’ here.

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Drinking tea could help you shift those festive season pounds

05 Jan 2011

By Anna Simpson, Executive Editor.

A team from The Pennsylvania State University have shown that one of the major polyphenols in green tea, (–)-Epigallocatechin-3-gallate (EGCG), increases the expression of genes related to fat oxidation. EGCG has been show to prevent the development of obesity in rodent models and may also modulate body weight in humans. Mechanisms accounting for this effect that have been demonstrated include a decrease of fat absorption in the small intestine and modulation of genes related to lipid metabolism in the liver, white adipose tissue and skeletal muscle; although in the latter tissue, comparatively little is known.

Joshua D. Lambert and co-workers investigated the expression of several genes related to lipid oxidation in the skeletal muscle of high fat-fed mice. They also compared these changes to observed effects on physiological markers of obesity, type II diabetes and obesity-related fatty liver disease (ORLFD).

Results showed that high fat-fed mice treated with EGCG had reduced body weight gain and final body weight compared to high fat-fed controls. EGCG treatment also decreased fasting blood glucose, plasma insulin, insulin resistance and markers of ORFLD. The expression of mRNA from genes relating to mitochondrial fatty acid oxidation was increased as was the levels of fat in the excretion. Taken together, these results suggest that EGCG modulates body weight gain by modulating both lipid metabolism and fat absorption.

So, it may be that drinking green tea could help with those new years resolutions to shed a few pounds; however, you’ll have to drink a lot as the levels used in this study correspond to a human consumption of approximately 10 cups a day!

Interested in knowing more? Read the full text here.

(−)-Epigallocatechin-3-gallate increases the expression of genes related to fat oxidation in the skeletal muscle of high fat-fed mice
Sudathip Sae-tan, Kimberly A. Grove, Mary J. Kennett and Joshua D. Lambert

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Can herbal tea provide the cure for Alzheimer’s?

22 Dec 2010

By Anna Simpson, Executive Editor.

A team from the University of Lisbon in Portugal has demonstrated, in vivo, the effects of a herbal tea (Lamiaceae) which may have beneficial effects on Alzheimer’s Disease.

Leaves of Plectranthus barbatus (Lamiaceae) are used to make herbal teas and as a traditional remedy for a wide range of diseases, recently they have been shown, in vitro, to possess anti-oxidant and anti-acetylcholinesterase activity. Acetylcholinesterase (AChE) inhibition is the most effective pharmacotherapy for the symptomatic treatment of Alzheimer’s disease. The active component responsible from Lamiaceae has been identified as rosmarinic acid, however, effects of this compound in the body are dependent on its metabolism. It is these metabolites and the places they reach that will exert a physiological effect. In this study Serralheiro and colleagues set out to determine, in vivo, if Lamiaceae herbal tea and pure rosmarinic acid could pass the digestive tract and keep some of their functions, particularly in the brain given the potential Alzheimer’s benefits.

Lamiaceae herbal tea and pure rosmarinic acid were administered to rats intragastrically and intraperitoneally. The resulting metabolites in the plasma and brain were studied as was brain AChE activity. Upon intragastric administration of tea, only traces of metabolites were found in plasma and none in the brain. However, a decrease in brain AChE activity of about 10% was detected. When pure rosmarinic acid was administered intragastrically it was detected in the plasma. Upon intraperitoneal administration of tea all metabolites were detected in plasma and rosmarinic acid detected in the brain; resulting in a decrease in brain AChE of about three times that of intragastric administration.

Taken together the results suggest that the rosmarinic acid present in herbal teas may cross the intestinal barrier as well as the blood brain barrier. It has also been shown that in the brain rosmarinic acid inhibits AChE activity.

Read the full text for free here!

Function of Plectranthus barbatus herbal tea as neuronal acetylcholinesterase inhibitor
Pedro L. V. Falé, Paulo J. Amorim Madeira, M. Helena Florêncio, Lia Ascensão and Maria Luísa M. Serralheiro
Food Funct., 2011, Advance Article
DOI: 10.1039/C0FO00070A, Paper

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Pleasures of Chocolate

03 Dec 2010

By Anna Simpson, Executive Editor.

Food & Function Editorial Board member, Alejandro Marangoni recently spoke at the Unilever-RSC International Symposium on Functional Materials. This series of three one day meetings was held from the 8^th-11^th November in Beijing, Hangzhou and Shanghai. Alejandro’s first two talks focussed on nanoscale structures in fats and his final one on nanostructuring liquid oils into functional fats.

Sensory attributes of fat structure materials such as butter and chocolate are mainly related to the structure and properties of a network of triacylglycerols, polycrystals and crystal aggregates present. Alejandro described the nanoscale structure and intercrystalline interactions in chocolate which explain its pleasures. His group have discovered that the general structure of a fat crystalline network starts with the association of nanoplatelets at the lowest structural level. These nanoplatelets interact and aggregate via van der Waals’s forces into larger fractal structures to form a three-dimensional matrix. These new insights are contributing to the knowledge of the nature of fat crystal networks and the relationship between these structures to the functional properties of edible fats.

Alejandro’s last talk reviewed novel strategies for nanostructuring liquid oils into functional fats. This is an area of increasing interest due to public concerns over excessive saturated and trans fat intake from manufactured food products. Alejandro described various strategies: using surfactant-like small molecules, phytosterols and ceramides as organogelators, structuring liquid oils by microencapsulation within multilamellar vesicles and the use of high-molecular weight polymers such as ethylcellulose to gel oil in the absence of water.

Do you work in this field? Submit your work to Food & Function today!

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Emulsion-based delivery systems: reviewing digestion models and interfacial design

26 Nov 2010

By Anna Simpson, Executive Editor.

Issues 1 and 2 of Food & Function are now here, and the vision of pulling together high impact chemical and physical research and linking it to human health and nutrition is starting to be fulfilled.

This week on the blog we are highlighting reviews published from the physics community.

In Issue 1 ‘Review of in vitro digestion models for rapid screening of emulsion-based systems’ by David Julian McClements and Yan Li looks at the current status of in vitro digestion models for simulating lipid digestion. Emulsion-based delivery systems are being developed to encapsulate, protect, and release non-polar lipids, vitamins, nutraceuticals and drugs. There is, therefore, of increasing interest in the food and pharmaceutical industries to understand and control the digestion of these emulsified lipids. To do this, in vitro digestion models which simulate the human gastrointestinal tract are needed to test the efficacy of different approaches for controlling lipid digestion.

As a continuation, Issue two contains a review which covers the physico-chemical changes occurring in emulsion based delivery systems during gastric and small intestine digestion. In ‘Interfacial design of protein-stabilized emulsions for optimal delivery of nutrients’ by Amir Malaki Nik, Amanda J. Wright and Milena Corredig protein-stabilised oil-in-water emulsions are focused on. Proteins are often used as ingredients in food emulsions, as their amphiphilic structures provide electrostatic and steric stabilisation. A better understanding of how to tailor the composition of oil droplet surfaces in food emulsions will aid in optimizing lipid digestion and, as a result, delivery of lipophilic nutrients.

Interfacial design of protein-stabilized emulsions for optimal delivery of nutrients

Interested in reading more? Follow the links below:

Review of in vitro digestion models for rapid screening of emulsion-based systems

Interfacial design of protein-stabilized emulsions for optimal delivery of nutrients

You may also want to submit a review or an article linking the physics of food with health and nutrition.

Manuscripts can be submitted online here

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The medicine’s in the (wine) bottle

19 Nov 2010

By Kathleen Too, Deputy Editor.

Some red wines contain such high levels of polyphenols that a single glass has equivalent bioactivity to several daily doses of an anti-diabetes drug, say Austrian scientists.

Polyphenols play a key role in the health benefits of wine by acting as antioxidants that prevent cell damage, but the other possible effects of these chemicals are not yet fully understood. Now, a group led by Alois Jungbauer from the University of Natural Resources and Life Sciences, Vienna, Austria, have shed light on this area by examining polyphenols in eight Austrian red wines. They assessed polyphenol activity towards a receptor called PPAR-gamma (peroxisome proliferator-activated receptor gamma). This receptor is present in many tissues in the body, and is primarily involved in the development of fat cells, in energy storage, and in modifying lipid and glucose levels in the blood, making it a key target for drugs for cardiovascular and metabolic diseases.

Red wines are rich in polyphenols, in particular epicatechin gallate, also found in green tea, and ellagic acid, which is found in many fruits

All of the wines were rich in polyphenols, in particular epicatechin gallate, also found in green tea,and ellagic acid, which is found in many fruits. When the team ran PPAR-gamma binding assays, they found that not only did these compounds bind to the receptor, but that the wines contained enough of them to rival the activity of the potent drug rosiglitazone, which is used to treat type 2 diabetes. One of the wines, a 2003 Blaufränkisch, contained particularly high polyphenol levels – just 100 mL contained levels equivalent to about four times the daily dose of rosiglitazone.

Jungbauer says that tannin-rich red wines contain more of the polyphenols, but that it is too early to come to any general conclusions about grape varieties. However, he suspects that environmental factors and wine technology have as much influence as the type of grape. He points out: ‘grape tannin and oak tannin supplements are often used in wine technology as antioxidants, and are added to the mash or fermented must. These extracts are rich in polyphenols and may also be a potent source of PPAR-gamma ligands.’

Chi-Tang Ho, a food scientist at Rutgers School of Environmental and Biological Sciences, New Jersey, US, thinks that this is an ‘extremely exciting’ study, and that it provides ‘good experimental evidence for the potential anti-diabetic effect of drinking red wine in moderation.’ ‘Grape skin extracts have great potential, and although the influence of ethanol is not yet fully understood, I am confident that it will be possible to replace some synthetic compounds by plant extracts,’ concludes Jungbauer.

David Barden

Read more about the article here:

Red wine: A source of potent ligands for peroxisome proliferator-activated receptor
Alfred Zoechling, Falk Liebner and Alois Jungbauer, Food Funct., 2011, DOI: 10.1039/c0fo00086h

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Food & Function Blog

Top five most accessed articles in December

(–)-Epicatechin-3-gallate (ECG) protects against cancer: a review

Food & Function 2011 Issue 1 Now Online

Top five most accessed articles in November

Drinking tea could help you shift those festive season pounds

Can herbal tea provide the cure for Alzheimer’s?

Top five most accessed articles in October

Pleasures of Chocolate

Emulsion-based delivery systems: reviewing digestion models and interfacial design

The medicine’s in the (wine) bottle

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