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Flavan-3-ol

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Title: Flavan-3-ol  
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Subject: Flavonoid, Phenolic content in tea, Health effects of natural phenols and polyphenols, Flavan, Flavonoid biosynthesis
Collection: Flavanols, Flavonoid Antioxidants, Nutrients, Nutrition
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Flavan-3-ol

Chemical structure of Flavan-3-ol (Formula: C15H14O2, molar mass : 226.27 g/mol, exact mass: 226.09937966).
Epicatechin (EC)
Epigallocatechin (EGC)

Flavan-3-ols (sometimes referred to as flavanols) are derivatives of flavans that use the 2-phenyl-3,4-dihydro-2H-chromen-3-ol skeleton. These compounds include catechin, epicatechin gallate, epigallocatechin, epigallocatechin gallate, proanthocyanidins, theaflavins, thearubigins.

Flavanols (with an "a") are not to be confused with flavonols (with an "o"), a class of flavonoids containing a ketone group.

The single-molecule (monomer) catechin, or isomer epicatechin (see diagram), adds four hydroxyls to flavan-3-ol, making building blocks for concatenated polymers (proanthocyanidins) and higher order polymers (anthocyanidins).[1]

Flavanols possess two chiral carbons, meaning four diastereoisomers occur for each of them.

Catechins are distinguished from the yellow, ketone-containing flavonoids such as quercitin and rutin, which are called flavonols. Early use of the term bioflavonoid was imprecisely applied to include the flavanols, which are distinguished by absence of ketone(s). Catechin monomers, dimers, and trimers (oligomers) are colorless. Higher order polymers, anthocyanidins, exhibit deepening reds and become tannins.[1]

Contents

  • Sources of catechins 1
  • Catechin and the gallates 2
  • Biosynthesis of (-)-epicatechin 3
  • Potential health effects of catechins 4
    • Possible reduced benefits in treated chocolate 4.1
  • Aglycones 5
  • Analysis 6
  • Other uses 7
  • References 8

Sources of catechins

The catechins are abundant in teas derived from the tea plant Camellia sinensis, as well as in some cocoas and chocolates[2] (made from the seeds of Theobroma cacao).

Catechins are also present in the human diet in fruits, vegetables and wine,[3] and are found in many other plant species, as well as cocoa.[4][5]

Catechin and the gallates

Catechin and epicatechin are epimers, with (-)-epicatechin and (+)-catechin being the most common optical isomers found in nature. Catechin was first isolated from the plant extract catechu, from which it derives its name. Heating catechin past its point of decomposition releases pyrocatechol (also called catechol), which explains the common origin of the names of these compounds.

Epigallocatechin and gallocatechin contain an additional phenolic hydroxyl group when compared to epicatechin and catechin, respectively, similar to the difference in pyrogallol compared to pyrocatechol.

Catechin gallates are gallic acid esters of the catechins; an example is epigallocatechin gallate, which is commonly the most abundant catechin in tea.

Biosynthesis of (-)-epicatechin

The flavonoids are products from a cinnamoyl-CoA starter unit, with chain extension using three molecules of malonyl-CoA. Reactions are catalyzed by a type III PKS enzyme. These enzyme do not use ACPSs, but instead employ coenzyme A esters and have a single active site to perform the necessary series of reactions, e.g. chain extension, condensation, and cyclization. Chain extension of 4-hydroxycinnamoyl-CoA with three molecules of malonyl-CoA gives initially a polyketide (Figure 1), which can be folded. These allow Claisen-like reactions to occur, generating aromatic rings.[6][7]

Figure 1

Figure 1:Schematic overview of the flavan-3-ol (-)-epicatechin biosynthesis in plants: Enzymes are indicated in blue, abbreviated as follows: E1, phenylalanine ammonia lyase (PAL), E2, tyrosine ammonia lyase (TAL), E3, cinnamate 4-hydroxylase, E4, 4-coumaroyl: CoA-ligase, E5, chalcone synthase (naringenin-chalcone synthase), E6, chalcone isomerase, E7, Flavonoid 3'-hydroxylase, E8, flavonone 3-hydroxylase, E9, dihydroflavanol 4-reductase, E10, anthocyanidin synthase (leucoanthocyanidin dioxygenase), E11, anthocyanidin reductase. HSCoA, Coenzyme A. L-Tyr, L-tyrosine, L-Phe, L-phenylalanine.

Potential health effects of catechins

The supposed health benefits of catechins have been studied extensively in humans and animal models, but there are no proven effects that apply to human health. Until 2013, neither the Food and Drug Administration nor the European Food Safety Authority has approved any health claim for catechins or approved any as pharmaceutical drugs.[8][9][10] Moreover, several companies have been cautioned by the FDA over misleading health claims.[11][12][13][14]

In 2014, the European Food Safety Authority approved the following health claim for cocoa products containing 200 mg of flavanols and meeting the qualification in dietary supplement products: “cocoa flavanols help maintain the elasticity of blood vessels, which contributes to normal blood flow”.[15]

Possible reduced benefits in treated chocolate

An editorial in The Lancet warned against increasing one’s intake of dark chocolate to improve health because the beneficial compounds are sometimes removed due to their bitter taste without an indication on the label.[16] Additionally, such product may be high in fat, sugar, and calories, which can increase the risk for heart disease.

Aglycones

Flavan-3-ols
Image Name Formula Oligomers
(+)-Catechin Catechin, C, (+)-Catechin C15H14O6 Proanthocyanidins
Epicatechin Epicatechin, EC, (-)-Epicatechin (cis) C15H14O6 Proanthocyanidins
Epigallocatechin Epigallocatechin, EGC C15H14O7 Prodelphinidins
Epicatechin gallate Epicatechin gallate, ECG C22H18O10
Epigallocatechin gallate Epigallocatechin gallate, EGCG,
(-)-Epigallocatechin gallate
C22H18O11
Epiafzelechin Epiafzelechin C15H14O5
Fisetinidol Fisetinidol C15H14O5
Guibourtinidol Guibourtinidol C15H14O4 Proguibourtinidins
Mesquitol Mesquitol C15H14O6
Robinetinidol Robinetinidol C15H14O6 Prorobinetinidins

Analysis

Fluorescence-lifetime imaging microscopy (FLIM) can be used to detect flavanols in plant cells[17]

Other uses

Recent study tested catechins employed to coat nanoparticles of iron oxides in the blood. These particles allow visualization of vessels - and especially cancer tumors in mice - in an MRI exam. The nanoparticles would clump together without the catechin coating. [18]

References

  1. ^ a b OPC in Practice, 1995 3rd Edition, by Bert Schwitters in collaboration with Prof. Jack Masquelier.
  2. ^ Hammerstone JF, Lazarus SA, Schmitz HH (August 2000). "Procyanidin content and variation in some commonly consumed foods". J. Nutr. 130 (8S Suppl): 2086S–92S.  
  3. ^ Ruidavets J, Teissedre P, Ferrières J, Carando S, Bougard G, Cabanis J (November 2000). "Catechin in the Mediterranean diet: vegetable, fruit or wine?". Atherosclerosis 153 (1): 107–17.  
  4. ^ BBC News | Health | Chocolate 'has health benefits'
  5. ^ Mabry, Helga; Harborne, J. B.; Mabry, T. J. (1975). The Flavonoids. London: Chapman and Hall.  
  6. ^ Dewick, Paul M.Medicinal Natural Products: a biosynthetic approach. 3rd ed. John Wiley & Sons Ltd, 2009, p. 168.
  7. ^ Winkel-Shirley, Brenda.Flavonoid Biosynthesis. A Colorful Model for Genetics, Biochemistry, Cell Biology, and Biotechnology. Plant Physiol. Vol. 126, 2001, p. 485-493.
  8. ^ "FDA approved drug products". US Food and Drug Administration. Retrieved 1 November 2014. 
  9. ^ "Health Claims Meeting Significant Scientific Agreement". US Food and Drug Administration. Retrieved 1 November 2014. 
  10. ^ EFSA Panel on Dietetic Products, Nutrition and Allergies (NDA)2, 3 European Food Safety Authority (EFSA), Parma, Italy (2010). "Scientific Opinion on the substantiation of health claims related to various food(s)/food constituent(s) and protection of cells from premature aging, antioxidant activity, antioxidant content and antioxidant properties, and protection of DNA, proteins and lipids from oxidative damage pursuant to Article 13(1) of Regulation (EC) No 1924/20061" (PDF). EFSA Journal 8 (2): 1489.  
  11. ^ "Inspections, Compliance, Enforcement, and Criminal Investigations (Flavonoid Sciences)". US Food and Drug Administration. Retrieved 1 November 2014. 
  12. ^ "Inspections, Compliance, Enforcement, and Criminal Investigations (Unilever, Inc.)". US Food and Drug Administration. Retrieved 31 October 2014. 
  13. ^ "Lipton green tea is a drug". NutraIngredients-USA.com. Retrieved 25 October 2013. 
  14. ^ "Fruits Are Good for Your Health? Not So Fast: FDA Stops Companies From Making Health Claims About Foods". TheDailyGreen.com. Retrieved 31 October 2014. 
  15. ^ "Scientific Opinion on the modification of the authorisation of a health claim related to cocoa flavanols and maintenance of normal endothelium-dependent vasodilation pursuant to Article 13(5) of Regulation (EC) No 1924/20061 following a request in accordance with Article 19 of Regulation (EC) No 1924/2006" (PDF). EFSA Journal 2014;12(5):3654. 2014. Retrieved 15 December 2014. 
  16. ^ The Lancet (22 December 2007). "The devil in the dark chocolate". The Lancet 370 (9605): 2070.  
  17. ^ Mueller-Harvey, I.; Feucht, W.; Polster, J.; Trnková, L.; Burgos, P.; Parker, A.W.; Botchway, S.W. (2012). "Two-photon excitation with pico-second fluorescence lifetime imaging to detect nuclear association of flavanols". Anal. Chim. Acta 719: 68–75.  
  18. ^ www.news-line.com. 
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