BACKGROUND: Epigenetic modifications play a key role in the in prostate cancer (Pca) progression to a hormone refractory state (HRPC) and the current use of agents targeting epigenetic changes has become a topic of intense interest in cancer research. In this regard, 5-Azacitine (5-Aza) represents a promising epigenetic modulator. This study tested the hypothesis that 5-Aza may restore and enhance the responsiveness of HRPC cells to anti-hormonal therapy on Androgen receptor (AR) expressing (22rv1) and AR-deficient (PC3) cells. METHODS: The effects were studied in vitro and in vivo models. This sequential treatment induced in vitro cell cycle arrest and apoptosis both in 22rv1 and PC3 tumor cell lines. RESULTS: This combined treatment up-regulated the expression of FasL, phospho-FADD, p16(INKA), Bax, Bak, and p21(WAF1), and inhibited FLIP, Bcl-2, and Bcl-XL expression. The re-activation of hormonal response of AR-negative PC3 cell line was partially due to the AR re-expression mediated by 5-Aza treatment. In contrast, the increase in the response to anti-androgenic therapy in 22rv1 did not correlate with AR expression levels. Furthermore, xenograft studies revealed that the combined treatment of 5-Aza with AR-antagonist Bicalutamide had additive/synergistic effects in repressing tumor growth in vivo and the underlying mechanisms responsible for these effects seem to be in part mediated by induction of apoptosis. CONCLUSIONS: So, this study strongly suggests a therapeutic potential of 5-Aza in combination with anti-androgen therapy in patients with in AR expressing and AR-deficient HRPC. (c) 2010 Wiley-Liss, Inc.
BACKGROUND: Epigenetic modifications play a key role in the in prostate cancer (Pca) progression to a hormone refractory state (HRPC) and the current use of agents targeting epigenetic changes has become a topic of intense interest in cancer research. In this regard, 5-Azacitine (5-Aza) represents a promising epigenetic modulator. This study tested the hypothesis that 5-Aza may restore and enhance the responsiveness of HRPC cells to anti-hormonal therapy on Androgen receptor (AR) expressing (22rv1) and AR-deficient (PC3) cells. METHODS: The effects were studied in vitro and in vivo models. This sequential treatment induced in vitro cell cycle arrest and apoptosis both in 22rv1 and PC3tumor cell lines. RESULTS: This combined treatment up-regulated the expression of FasL, phospho-FADD, p16(INKA), Bax, Bak, and p21(WAF1), and inhibited FLIP, Bcl-2, and Bcl-XL expression. The re-activation of hormonal response of AR-negative PC3 cell line was partially due to the AR re-expression mediated by 5-Aza treatment. In contrast, the increase in the response to anti-androgenic therapy in 22rv1 did not correlate with AR expression levels. Furthermore, xenograft studies revealed that the combined treatment of 5-Aza with AR-antagonist Bicalutamide had additive/synergistic effects in repressing tumor growth in vivo and the underlying mechanisms responsible for these effects seem to be in part mediated by induction of apoptosis. CONCLUSIONS: So, this study strongly suggests a therapeutic potential of 5-Aza in combination with anti-androgen therapy in patients with in AR expressing and AR-deficient HRPC. (c) 2010 Wiley-Liss, Inc.
Authors: Giovanni Luca Gravina; Francesco Marampon; Margherita Piccolella; Marcella Motta; Luca Ventura; Roberto Pomante; Vladimir M Popov; Bianca M Zani; Richard G Pestell; Vincenzo Tombolini; Emmanuele A Jannini; Claudio Festuccia Journal: Endocrinology Date: 2011-10-11 Impact factor: 4.736
Authors: Aiping Zhu; Kevin M Hopkins; Richard A Friedman; Joshua D Bernstock; Constantinos G Broustas; Howard B Lieberman Journal: Carcinogenesis Date: 2021-02-25 Impact factor: 4.944
Authors: Costantine Albany; Ajjai S Alva; Ana M Aparicio; Rakesh Singal; Sarvari Yellapragada; Guru Sonpavde; Noah M Hahn Journal: Prostate Cancer Date: 2011-11-30