BACKGROUND: We postulate that the androgen dehydroepiandrosterone sulfate (DHEAS) may represent an innovative hormonal treatment for estrogen (ER), progesterone (PR) receptor-negative, but androgen receptor (AR)-positive breast cancers by inhibiting breast cancer cell growth through AR stimulation. METHODS: Three ER,PR-negative breast cancer cell lines (HCC 1137, 1954, and 38), were treated with DHEAS. DHEAS-induced growth was measured by a methylthiotetrazole (MTT) proliferation assay and apoptosis by TUNEL fluorescence. Androgen receptor gene expression levels were determined using quantitative real-time polymerase chain reaction (q-RT-PCR). RESULTS: HCC cell lines 1954 and 1937 were positive for AR expression; HCC 38 was weakly positive. MTT analysis showed DHEAS-induced decreases in cell proliferation of 47% in HCC 1937, 27% in HCC 1954, and 0.4% in HCC 38. Ten days of culturing HCC 1954 cells after the removal of DHEAS resulted in a 3.5-fold increase in growth. Continuous treatment for the same duration induced a 2.8-fold decrease in growth. Parallel experiments showed no significant changes in HCC 38 cultures. TUNEL assays showed DHEAS-induced apoptosis fold increases of 2.8 in HCC 1937, 1.9 in HCC 1954, and no significant difference in HCC 38 cultures. Q-RT-PCR of HCC 1954 cells showed a 6-fold DHEAS-induced decrease in AR gene expression at 4 h. Co-treatment with Casodex nullified this effect. CONCLUSIONS: DHEAS inhibited growth of ER,PR-negative, AR-positive breast cancer cells. DHEAS was cytotoxic to these breast cancer cells via the apoptosis pathway. DHEAS may be an effective treatment for a population previously excluded from hormone therapy.
BACKGROUND: We postulate that the androgen dehydroepiandrosterone sulfate (DHEAS) may represent an innovative hormonal treatment for estrogen (ER), progesterone (PR) receptor-negative, but androgen receptor (AR)-positive breast cancers by inhibiting breast cancer cell growth through AR stimulation. METHODS: Three ER,PR-negative breast cancer cell lines (HCC 1137, 1954, and 38), were treated with DHEAS. DHEAS-induced growth was measured by a methylthiotetrazole (MTT) proliferation assay and apoptosis by TUNEL fluorescence. Androgen receptor gene expression levels were determined using quantitative real-time polymerase chain reaction (q-RT-PCR). RESULTS: HCC cell lines 1954 and 1937 were positive for AR expression; HCC 38 was weakly positive. MTT analysis showed DHEAS-induced decreases in cell proliferation of 47% in HCC 1937, 27% in HCC 1954, and 0.4% in HCC 38. Ten days of culturing HCC 1954 cells after the removal of DHEAS resulted in a 3.5-fold increase in growth. Continuous treatment for the same duration induced a 2.8-fold decrease in growth. Parallel experiments showed no significant changes in HCC 38 cultures. TUNEL assays showed DHEAS-induced apoptosis fold increases of 2.8 in HCC 1937, 1.9 in HCC 1954, and no significant difference in HCC 38 cultures. Q-RT-PCR of HCC 1954 cells showed a 6-fold DHEAS-induced decrease in AR gene expression at 4 h. Co-treatment with Casodex nullified this effect. CONCLUSIONS:DHEAS inhibited growth of ER,PR-negative, AR-positive breast cancer cells. DHEAS was cytotoxic to these breast cancer cells via the apoptosis pathway. DHEAS may be an effective treatment for a population previously excluded from hormone therapy.
Authors: Joshua Chuck Harrell; Wendy W Dye; D Craig Allred; Paul Jedlicka; Nicole S Spoelstra; Carol A Sartorius; Kathryn B Horwitz Journal: Cancer Res Date: 2006-09-15 Impact factor: 12.701
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Authors: Ji-Ping Qi; You-Lin Yang; Hong Zhu; Jianmin Wang; Ying Jia; Na Liu; Yue-Jia Song; Li-Kun Zan; Xu Zhang; Min Zhou; Yun-He Gu; Tao Liu; David G Hicks; Ping Tang Journal: Breast Cancer (Auckl) Date: 2011-12-06