PURPOSE: We have shown previously that acquired tamoxifen resistance in an in vivo experimental model is associated with reduced tamoxifen accumulation, isomerization of trans-4-hydroxytamoxifen, and tamoxifen-stimulated tumor growth. The purpose of this study is to isolate and verify the presence of estrogenic tamoxifen metabolites in human breast tumors using high-performance liquid chromatography (HPLC) and mass-spectrometry (MS) techniques. PATIENTS AND METHODS: In the present study, we used HPLC and MS to identify the presence of estrogenic metabolites in tumor samples excised from athymic nude mice and in human breast tumors isolated from patients receiving adjuvant tamoxifen therapy. RESULTS: We identified the presence of metabolite E, a known estrogenic metabolite of tamoxifen, in tamoxifen-resistant MCF-7 human breast tumors implanted in athymic nude mice, as well as in tumors from patients with clinical resistance. Additionally, we separated another estrogenic metabolite, bisphenol, by HPLC, and this was also tentatively confirmed by MS analysis. CONCLUSION: These data suggest that cellular tamoxifen metabolism to estrogenic metabolites may in part contribute to stimulating the growth of hormone-responsive breast tumors following prolonged exposure to tamoxifen. Further evaluation of the relationship between cellular metabolism and acquired tamoxifen resistance is warranted.
PURPOSE: We have shown previously that acquired tamoxifen resistance in an in vivo experimental model is associated with reduced tamoxifen accumulation, isomerization of trans-4-hydroxytamoxifen, and tamoxifen-stimulated tumor growth. The purpose of this study is to isolate and verify the presence of estrogenic tamoxifen metabolites in humanbreast tumors using high-performance liquid chromatography (HPLC) and mass-spectrometry (MS) techniques. PATIENTS AND METHODS: In the present study, we used HPLC and MS to identify the presence of estrogenic metabolites in tumor samples excised from athymic nude mice and in humanbreast tumors isolated from patients receiving adjuvant tamoxifen therapy. RESULTS: We identified the presence of metabolite E, a known estrogenic metabolite of tamoxifen, in tamoxifen-resistant MCF-7 humanbreast tumors implanted in athymic nude mice, as well as in tumors from patients with clinical resistance. Additionally, we separated another estrogenic metabolite, bisphenol, by HPLC, and this was also tentatively confirmed by MS analysis. CONCLUSION: These data suggest that cellular tamoxifen metabolism to estrogenic metabolites may in part contribute to stimulating the growth of hormone-responsive breast tumors following prolonged exposure to tamoxifen. Further evaluation of the relationship between cellular metabolism and acquired tamoxifen resistance is warranted.
Authors: R Clarke; E W Thompson; F Leonessa; J Lippman; M McGarvey; T L Frandsen; N Brünner Journal: Breast Cancer Res Treat Date: 1993 Impact factor: 4.872
Authors: C K Osborne; M Jarman; R McCague; E B Coronado; S G Hilsenbeck; A E Wakeling Journal: Cancer Chemother Pharmacol Date: 1994 Impact factor: 3.333
Authors: C C Benz; G K Scott; J C Sarup; R M Johnson; D Tripathy; E Coronado; H M Shepard; C K Osborne Journal: Breast Cancer Res Treat Date: 1992 Impact factor: 4.872