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While radiotherapy is the first line of treatment for prostate cancer, androgen blockade therapies are demonstrating significant survival benefit as monotherapies. As androgen blockade can cause cell death by apoptosis, it is likely that androgen blockade will potentiate the cytotoxic activities of radiotherapy. Here we tested the potential synergistic effects of these two treatments over two human metastatic prostate cancer cells by real time growth monitoring (RTCA), androgen-sensitive LNCaP cells and androgen-resistant PC-3. Both cell lines were highly resistant to high doses of radiotherapy. A pre-treatment of LNCaP cells with IC50 concentrations of enzalutamide significantly sensitized them to radiotherapy through enhanced apoptosis. In contrast, enzalutamide resistant PC-3 cells were not sensitized to radiotherapy by androgen blockade. These results provide evidence that the enzalutamide/radiotherapy combination could maximize therapeutic responses in patients with enzalutamide-sensitive prostate cancer.

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Occurrence of Somatostatin and Insulin Immunoreactivities in the Stomach of Sea Bass (Dicentrarchus labraxL.): Light and Electron Microscopic Studies

Visus

Abad

Hernández

et al. 1996

General and Comparative Endocrinology

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Radiopotentiation of enzalutamide over human prostate cancer cells as assessed by real-time cell monitoring

Barrado¹,

Blanco‐Luquin²,

Navarrete³

et al. 2019

Reports of Practical Oncology & Radiotherapy

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Aim: To evaluate the radiopotentiation of enzalutamide in human prostate cancer cells. Background: While radiotherapy is the first line of treatment for prostate cancer, androgen blockade therapies are demonstrating significant survival benefit as monotherapies. As androgen blockade can cause cell death by apoptosis, it is likely that androgen blockade will potentiate the cytotoxic activities of radiotherapy. Materials and methods: Here, we tested the potential synergistic effects of these two treatments over two human metastatic prostate cancer cells by real-time cell analysis (RTCA), androgen-sensitive LNCaP cells (Lymph Node Carcinoma of the Prostate) and androgenindependent PC-3. Both cell lines were highly resistant to high doses of radiotherapy. Results: A pre-treatment of LNCaP cells with IC50 concentrations of enzalutamide significantly sensitized them to radiotherapy through enhanced apoptosis. In contrast, enzalutamide resistant PC-3 cells were not sensitized to radiotherapy by androgen blockade. Conclusions: These results provide evidence that the enzalutamide/radiotherapy combination could maximize therapeutic responses in patients with enzalutamide-sensitive prostate cancer.

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To What Extent Does Radiotherapy Improve the Quality of Life of Patients With Bone Metastasis?

Fecal incontinence and radiation dose on anal sphincter in patients with locally advanced rectal cancer (LARC) treated with preoperative chemoradiotherapy: a retrospective, single-institutional study

Radiopotentiation of Enzalutamide Over Human Prostate Cancer Cells as Assessed by Real-Time Cell Monitoring

Occurrence of Somatostatin and Insulin Immunoreactivities in the Stomach of Sea Bass (Dicentrarchus labraxL.): Light and Electron Microscopic Studies

Radiopotentiation of enzalutamide over human prostate cancer cells as assessed by real-time cell monitoring

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