BACKGROUND: The present work reports on the effect of oxidizing (OH, O(2)(*-)) and reducing free radicals (e(-)(aq), H) on 17beta-estradiol (17betaE2) in respect to breast cancer initiation. The objectives of the study were based on the following premise: the ability of 17betaE2 to emit electrons (e(-)(aq)) as well as to transfer them to other biological systems. Thereby, the resulting transient hormone products are leading to the formation of metabolites, some of which may initiate the neoplastic process. The present work considers the effect of the simultaneously generated oxidizing and reducing free radicals on the carcinogenic properties of the 17betaE2 metabolites. MATERIALS AND METHODS: Water-soluble 17betaE2 with incorporated 2-hydroxypropyl-beta-cyclodextrin (HBC) in various aqueous media (pH ~7.4), saturated with air, N(2)O or argon, as well as HBC alone, were exposed to the action of free radicals produced by gamma-ray. Escherichia coli bacteria (AB 1157) were used as a model for living systems. RESULTS: From the survival curves obtained under different conditions, the derived DeltaD(37) values (representing the radiation dose at which N/N(0)=0.37; N/N(0) ratio: N(0)=starting number of colonies, N=number after irradiation treatment) illustrate that 17betaE2 as well as HBC act as very powerful scavengers of OH and O(2)(*-) radicals. On the other hand, 17betaE2 and HBC intermediates resulting from attack of the reducing species (e(-)(aq), H) have strong anticancer properties. CONCLUSION: It is stated that DeltaD(37) values strongly depend on the reactivity of the individual free radicals. Oxidizing free radicals lead to positive DeltaD(37) values, illustrating the strongly pronounced radiation protecting ability of the systems. On the contrary, the primary reducing free radicals result in negative DeltaD(37) values, indicating anticancer effect.
BACKGROUND: The present work reports on the effect of oxidizing (OH, O(2)(*-)) and reducing free radicals (e(-)(aq), H) on 17beta-estradiol (17betaE2) in respect to breast cancer initiation. The objectives of the study were based on the following premise: the ability of 17betaE2 to emit electrons (e(-)(aq)) as well as to transfer them to other biological systems. Thereby, the resulting transient hormone products are leading to the formation of metabolites, some of which may initiate the neoplastic process. The present work considers the effect of the simultaneously generated oxidizing and reducing free radicals on the carcinogenic properties of the 17betaE2 metabolites. r> MATERIALS AND METHODS:Water-soluble 17betaE2 with incorporated 2-hydroxypropyl-beta-cyclodextrin (HBC) in various aqueous media (pH ~7.4), saturated with air, N(2)O orargon, as well as HBC alone, were exposed to the action of free radicals produced by gamma-ray. Escherichia coli bacteria (AB 1157) were used as a model for living systems. r> RESULTS: From the survival curves obtained under different conditions, the derived DeltaD(37) values (representing the radiation dose at which N/N(0)=0.37; N/N(0) ratio: N(0)=starting number of colonies, N=number after irradiation treatment) illustrate that 17betaE2 as well as HBC act as very powerful scavengers of OH and O(2)(*-) radicals. On the other hand, 17betaE2 and HBC intermediates resulting from attack of the reducing species (e(-)(aq), H) have strong anticancer properties. r> CONCLUSION: It is stated that DeltaD(37) values strongly depend on the reactivity of the individual free radicals. Oxidizing free radicals lead to positive DeltaD(37) values, illustrating the strongly pronounced radiation protecting ability of the systems. On the contrary, the primary reducing free radicalsresult in negative DeltaD(37) values, indicating anticancer effect.
Authors: Nikola Getoff; Marion Gerschpacher; Johannes Hartmann; Johannes C Huber; Heike Schittl; Ruth Maria Quint Journal: J Photochem Photobiol B Date: 2009-10-20 Impact factor: 6.252
Authors: Elizabeth A Krämer; Harald Seeger; Bernhard Krämer; Diethelm Wallwiener; Alfred O Mueck Journal: Eur J Obstet Gynecol Reprod Biol Date: 2006-02-07 Impact factor: 2.435
Authors: Nikola Getoff; Heike Schittl; Johannes Hartmann; Marion Gerschpacher; Shaobin Ying; Iren Danielova; Johannes C Huber Journal: In Vivo Date: 2010 Jul-Aug Impact factor: 2.155