OBJECTIVE: The flavonoid 8-prenylnaringenin (8-PN) is found in hops, and hence in beer, and is also increasingly consumed as a food supplement. It is the strongest known phytoestrogen, which makes it a good candidate as an alternative to hormone therapy. Its putatively undesired estrogenic effects in the uterus and mammary gland have not yet been thoroughly investigated. Therefore, we performed a long-term oral administration experiment. DESIGN: Rats were ovariectomized and fed for 3 months with soy-free chow containing estradiol (E(2)) or 8-PN, both in two doses (8-PN: 6.77 mg or 68.42 mg/kg body weight; E(2): 0.17 mg or 0.7 mg/kg body weight) or no additives. Analysis was mainly focused on morphologic and immunocytochemical parameters. Expression of proliferating cell nuclear antigen as a proliferation marker and of progesterone receptor was quantified in the mammary gland. RESULTS: Uteri of animals treated with both E(2) doses and the high 8-PN dose had increased weight and showed histologic estrogen-induced features. 8-PN at the high dose induced epithelial polypoid formation unique to this group. Compared to the atrophic controls, both E(2) doses and the high 8-PN dose induced hyperplastic epithelia in the vagina. The high doses of E(2) and 8-PN caused secretion in the mammary gland, whereas proliferation and progesterone receptor expression were stimulated by both E(2) doses and the high 8-PN dose. CONCLUSIONS: E(2) and 8-PN share many effects in the three studied organs, but some differences in the mechanism of action appear to exist.
OBJECTIVE: The flavonoid8-prenylnaringenin (8-PN) is found in hops, and hence in beer, and is also increasingly consumed as a food supplement. It is the strongest known phytoestrogen, which makes it a good candidate as an alternative to hormone therapy. Its putatively undesired estrogenic effects in the uterus and mammary gland have not yet been thoroughly investigated. Therefore, we performed a long-term oral administration experiment. DESIGN:Rats were ovariectomized and fed for 3 months with soy-free chow containing estradiol (E(2)) or 8-PN, both in two doses (8-PN: 6.77 mg or 68.42 mg/kg body weight; E(2): 0.17 mg or 0.7 mg/kg body weight) or no additives. Analysis was mainly focused on morphologic and immunocytochemical parameters. Expression of proliferating cell nuclear antigen as a proliferation marker and of progesterone receptor was quantified in the mammary gland. RESULTS: Uteri of animals treated with both E(2) doses and the high 8-PN dose had increased weight and showed histologic estrogen-induced features. 8-PN at the high dose induced epithelial polypoid formation unique to this group. Compared to the atrophic controls, both E(2) doses and the high 8-PN dose induced hyperplastic epithelia in the vagina. The high doses of E(2) and 8-PN caused secretion in the mammary gland, whereas proliferation and progesterone receptor expression were stimulated by both E(2) doses and the high 8-PN dose. CONCLUSIONS:E(2) and 8-PN share many effects in the three studied organs, but some differences in the mechanism of action appear to exist.
Authors: Selin Bolca; Jinghu Li; Dejan Nikolic; Nathalie Roche; Phillip Blondeel; Sam Possemiers; Denis De Keukeleire; Marc Bracke; Arne Heyerick; Richard B van Breemen; Herman Depypere Journal: Mol Nutr Food Res Date: 2010-07 Impact factor: 5.914
Authors: F Salih Muhammad; Amanda K Goode; Nancy D Kock; Esther A Arifin; J Mark Cline; Michael R Adams; Patricia B Hoyer; Patricia J Christian; Scott Isom; Jay R Kaplan; Susan E Appt Journal: Comp Med Date: 2009-02 Impact factor: 0.982
Authors: Cassia R Overk; Jian Guo; Lucas R Chadwick; Daniel D Lantvit; Alberto Minassi; Giovanni Appendino; Shao-Nong Chen; David C Lankin; Norman R Farnsworth; Guido F Pauli; Richard B van Breemen; Judy L Bolton Journal: Chem Biol Interact Date: 2008-06-20 Impact factor: 5.192
Authors: Annekathrin M Keiler; Dana Macejova; Birgit M Dietz; Judy L Bolton; Guido F Pauli; Shao-Nong Chen; Richard B van Breemen; Dejan Nikolic; Florian Goerl; Michael H Muders; Oliver Zierau; Günter Vollmer Journal: J Steroid Biochem Mol Biol Date: 2017-09-28 Impact factor: 4.292