Kvasny Prum. 2010; 56(1): 2-9 | DOI: 10.18832/kp2010001

The content of hop prenylflavonoids in czech and foreign beers.Peer-reviewed article

Karel KROFTA
Chmelařský institut s. r. o., Kadaňská 2525, 438 46 Žatec

The content of isoxanthohumol (IX) in most of Czech and foreign beer brands did not exceed the limit of 2000 g.l-1. The concentration of xanthohumol (XN) was up to 100 g.l-1. The largest quantities of prenylflavonoids in all beers investigated were found in Czech dark 12 % lager (2522 g.l-1 IX and 505 g.l-1 XN). On average less prenylflavonoids were found in draught and alcohol-free beer brands due to the lower hopping rate and the higher proportion of CO2-extracts. Choosing a hop variety with a higher XN/-acids ratio can influence the level of IX in the beer. The amount of prenylflavonoids in beers increases if Sladek and Saazer are used for hopping. The monitoring of isoxanthohumol concentrations in intermediate products during the brewing process, in two industrial breweries confirmed that high losses occur in the course of beer production. The critical points are cooling of wort, fermentation and filtration. The total amount of xanthohumol remaining after the beer production in full operating scale is approximately 20-30 %. Tracing of the stability of the IX and XN contents in bottled beers, which was done over a period of 3 months, showed that the concentration of IX was reduced by 10-15 % depending on the storage temperature. Losses of XN were higher and reached about one third of the original content.The content of isoxanthohumol (IX) in most of Czech and foreign beer brands did not exceed the limit of 2000 g.l-1. The concentration of xanthohumol (XN) was up to 100 g.l-1. The largest quantities of prenylflavonoids in all beers investigated were found in Czech dark 12 % lager (2522 g.l-1 IX and 505 g.l-1 XN). On average less prenylflavonoids were found in draught and alcohol-free beer brands due to the lower hopping rate and the higher proportion of CO2-extracts. Choosing a hop variety with a higher XN/-acids ratio can influence the level of IX in the beer. The amount of prenylflavonoids in beers increases if Sladek and Saazer are used for hopping. The monitoring of isoxanthohumol concentrations in intermediate products during the brewing process, in two industrial breweries confirmed that high losses occur in the course of beer production. The critical points are cooling of wort, fermentation and filtration. The total amount of xanthohumol remaining after the beer production in full operating scale is approximately 20-30 %. Tracing of the stability of the IX and XN contents in bottled beers, which was done over a period of 3 months, showed that the concentration of IX was reduced by 10-15 % depending on the storage temperature. Losses of XN were higher and reached about one third of the original content.

Keywords: Hop, beer, xanthohumol, isoxanthohumol, liquid chromatography, solid phase extraction

Accepted: October 29, 2009; Published: January 1, 2010 

References

  1. Stevens, J. F., Page, J. E.: Xanthohumol and related prenylflavonoids from hops and beer: to your good health? Phytochemistry 65, 2004. 1317-1330. Go to original source...
  2. Henderson, M. C., Miranda, C. L., Stevens, J. F., Deinzer, M. L., Buhler, D. R.: In vitro inhibition of human P450 enzymes by prenylated flavonoids from hop, Humulus lupulus. Xenobiotica 30, 2000, 235-251. Go to original source...
  3. Miranda, C. L., Aponso, G. L. M., Stevens, J. F., Deinzer, M. L., Buhler, D. R.: Prenylated chalcones and flavanones as inducers of quinone reductase in mouse Hepa 1c1c7 cells. Cancer letters 149, 2000, 21-29. Go to original source...
  4. Miranda, C. L., Yang, Y. H., Henderson, M., Stevens, J. F., Santana-Rios, G., Deinzer, M. L., Buhler, D. R.: Prenylflavonoids from hops inhibit the metabolic activation of the carcinogenic heterocyclic amine 2-amino-3-methylimidazo(4,5-F)quinoline, mediated by CNDA-expressed human CYP1A2. Drug Metab. Disp. 28, 2000, 1297-1302.
  5. Gerhäuser, C.: Beer constituents as potential cancer chemopreventive agents. European J. Cancer 41, 2005, 1941-1954. Go to original source...
  6. Tobe, H. et al.: Bone resorption inhibitors from hop extracts. Biosci. Biotech. Biochem. 61, 1997, 158-159. Go to original source...
  7. Kondo, K.: Preventive effects of dietary beer on lifestyle-related diseases. Proceedings of the 29th EBC Congress, Dublin, 2003; Contribution 133.
  8. Milligan, S. R. et al.: Identification of a potent phytoestrogen in hops and beer. J. Clin. Endocrinol. Metab. 83, 1999, 2249-2252. Go to original source...
  9. Rong, H., Zhao, Y., Lazou, K., De Keukeleire, D., Milligan, S. R., Sandra P.: Quantitation of 8-Prenylnaringenin, a Novel Phytoestrogen in Hops, Hop Products and Beers by Benchtop HPLC-MS Using Electrospray Ionization. Chromatographia 51, 2000, 545-552. Go to original source...
  10. Krofta, K.: Hodnocení kvality chmele. Metodika pro praxi. Chmelařský institut Žatec, 2008, ISBN 978-80-86836-84-3.
  11. Possemiers, S. et al.: Activation of Proestrogens from Hops by Intestinal Microbiota; Conversion of Isoxanthohumol into 8-Prenylnaringenin. J. Agric. Food Chem. 53, 2005, 6281-6288. Go to original source...
  12. Possemiers, S. et al.: The prenylflavonoid Isoxanthohumol from Hops is Activated into the Potent Phytoestrogen 8-Prenylnaringenin In Vitro and in the Human Intestine. J. Nutrition 136, 2006, 1862-1867. Go to original source...
  13. Forster, A., Gahr, A., Ketterer, M., Beck, B., Massinger, S.: Xanthohumol in Bier - Möglichkeiten und Grenzen einer Anreichung. Monatsschr. Brauwiss. 9/10, 2002, 184-194.
  14. Stevens, J. F. et al.: Fate of Xanthohumol and Related Prenylflavonoids from Hops to Beer. J. Agric. Food. Chem. 47, 1999, 24212428. Go to original source...
  15. Forster, A., Koberlein, A.: Der Verbleib von Xanthohumol aus Hopfen während der Bierbereitung. Brauwelt 37, 1998,1677-1679.
  16. Stevens, J. F., Taylor, A. W., Deinzer, M. L.: Quantitative analysis of xanthohumol and related prenylflavonoids in hops and beer by liquid chromatography-tandem mass spektrometry. J. Chrom. A 832, 1999, 97-107. Go to original source...
  17. Magalhâes, P. J., Guido, L. F., Cruz, J. M., Barros, A. A.: Analysis of xanthohumol and isoxanthohumol in different hop products by liquid chromatography-diode array detection-electrospray ionization tandem mass spectrometry. J. Chrom. A, 1150, 2007, 295-301. K VA S N Y P RU M. roč. 56 / 2010 - číslo 1 9 Go to original source...
  18. Tekel, J. et al.: Determination of the Hop-Derived Phytoestrogen, 8-Prenylnaringenin, in Beer by Gas Chromatography/Mass Spektrometry. J. Agric. Food Chem. 47, 1999, 5059-5063. Go to original source...
  19. Biendl, M., Mitter, W., Methner, F. J.: Use of xanthohumol-rich hop products in beer production. Brauwelt Int. 2002/I, 39-42.
  20. Biendl, M., Methner F. J., Stettner, G.: Brauversuche mit einem xanthohumolreichen Hopfenprodukt. Brauwelt 43, 2004, 236-241.
  21. Stettner, G. et al.: Use of a new xanthohumol-rich hop product in the brewhouse - fate of xanthohumol during beer production and influence of non specific hop compounds on the bitterness of beer. Proceedings of the 29th EBC Congress, Dublin, 2003; Contribution 138.
  22. Wunderlich, S., Zürcher, A., Back, W.: Enrichment of xanthohumol in the brewing process. Mol. Nutr. Food Res. 49, 2005, 874-881. Go to original source...
  23. Biendl, M.: Development of new plant extracts rich in hop polyphenols. Proceedings of the 31th EBC Congress, Venezia, 2007; Contribution 110.
  24. Walker, C., Lence, C. F.: Investigation into the high levels of xanthohumol found in Stout and Porter style beers. Brauwelt Int., 2004/II, 100-103.
  25. Magalhâes, P. J., Dostálek, P., Cruz, J. M., Guido, L. F., Barros, A. A.: The impact of a Xanthohumol-Enriched hop Products on the Behavior of Xanthohumol and Isoxanthohumol in Pale and Dark Beers: A Pilot Scale Approach. J. Inst. Brew. 114, 2008, 246-256. Go to original source...

Return to the content