Joice Rocha scite author profile

We examined whether mTOR inhibition by RAD001 (Everolimus) could be therapeutically efficacious in the treatment of bladder cancer. RAD001 markedly inhibited proliferation of nine human urothelial carcinoma cell lines in dose- and sensitivity-dependent manners in vitro. FACS analysis showed that treatment with RAD001 for 48 h induced a cell cycle arrest in the G(0)/G(1) phase in all cell lines, without eliciting apoptosis. Additionally, RAD001 significantly inhibited the phosphorylation of S6 downstream of mTOR and VEGF production in all cell lines. We also found tumor weights from nude mice bearing human KU-7 subcutaneous xenografts treated with RAD001 were significantly reduced as compared to placebo-treated mice. This tumor growth inhibition was associated with significant decrease in cell proliferation rate and angiogenesis without changes in cell death. In conclusion inhibition of mTOR signaling in bladder cancer models demonstrated remarkable antitumor activity both in vitro and in vivo. This is the first study showing that RAD001 could be exploited as a potential therapeutic strategy in bladder cancer.

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Botulinum Toxin Type A Inhibits the Growth of LNCaP Human Prostate Cancer Cells In Vitro and In Vivo

Karsenty

Rocha

Chevalier

et al. 2009

The Prostate

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The Fer Tyrosine Kinase Cooperates with Interleukin-6 to Activate Signal Transducer and Activator of Transcription 3 and Promote Human Prostate Cancer Cell Growth

Zoubeidi

Rocha²,

Zouanat³

et al. 2009

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Androgen withdrawal is the most effective form of systemic therapy for men with advanced prostate cancer. Unfortunately, androgen-independent progression is inevitable, and the development of hormone-refractory disease and death occurs within 2 to 3 years in most men. The understanding of molecular mechanisms promoting the growth of androgenindependent prostate cancer cells is essential for the rational design of agents to treat advanced disease. We previously reported that Fer tyrosine kinase level correlates with the development of prostate cancer and aggressiveness of prostate cancer cell lines. Moreover, knocking down Fer expression interferes with prostate cancer cell growth in vitro. However, the mechanism by which Fer mediates prostate cancer progression remains elusive. We present here that Fer and phospho-Y705 signal transducer and activator of transcription 3 (STAT3) are barely detectable in human benign prostate tissues but constitutively expressed in the cytoplasm and nucleus of the same subsets of tumor cells in human prostate cancer. The interaction between STAT3 and Fer was observed in all prostate cancer cell lines tested, and this interaction is mediated via the Fer Src homology 2 domain and modulated by interleukin-6 (IL-6). Moreover, IL-6 triggered a rapid formation of Fer/gp130 and Fer/STAT3 complexes in a time-dependent manner and consistent with changes in Fer and STAT3 phosphorylation and cytoplasmic/nuclear distribution. The modulation of Fer expression/activation resulted in inhibitory or stimulatory effects on STAT3 phosphorylation, nuclear translocation, and transcriptional activation. These effects translated in IL-6 -mediated PC-3 cell growth. Taken together, these results support an important function of Fer in prostate

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Refining the orthotopic dog prostate cancer (DPC)‐1 model to better bridge the gap between rodents and men

et al. 2011

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Electrochemical red-ox therapy of prostate cancer in nude mice

Cury

Bhindi

Rocha

et al. 2015

Bioelectrochemistry

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Joice Rocha

Inhibition of mammalian target of rapamycin as a therapeutic strategy in the management of bladder cancer

Botulinum Toxin Type A Inhibits the Growth of LNCaP Human Prostate Cancer Cells In Vitro and In Vivo

The Fer Tyrosine Kinase Cooperates with Interleukin-6 to Activate Signal Transducer and Activator of Transcription 3 and Promote Human Prostate Cancer Cell Growth

Refining the orthotopic dog prostate cancer (DPC)‐1 model to better bridge the gap between rodents and men

Electrochemical red-ox therapy of prostate cancer in nude mice

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