4.6 Article

Protein Levels of Anti-Apoptotic Mcl-1 and the Deubiquitinase USP9x Are Cooperatively Upregulated during Prostate Cancer Progression and Limit Response of Prostate Cancer Cells to Radiotherapy

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CANCERS
卷 15, 期 9, 页码 -

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MDPI
DOI: 10.3390/cancers15092496

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prostate cancer; radiotherapy; Mcl-1; protein stability; ubiquitylation; USP9x

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Radiotherapy is an important treatment option for prostate cancer, but cancer cells often develop resistance, limiting its effectiveness. The Bcl-2 protein family plays a role in regulating sensitivity to radiotherapy. In this study, we found that the levels of USP9x and Mcl-1 increased during prostate cancer progression. Blocking Mcl-1 or USP9x improved the response of prostate cancer cells to radiotherapy. Additionally, radiotherapy itself affected the stability of Mcl-1 protein in prostate cancer cells.
Radiotherapy constitutes an important therapeutic option for prostate cancer. However, prostate cancer cells often acquire resistance during cancer progression, limiting the cytotoxic effects of radiotherapy. Among factors regulating sensitivity to radiotherapy are members of the Bcl-2 protein family, known to regulate apoptosis at the mitochondrial level. We demonstrate that protein levels of deubiquitinase USP9x and anti-apoptotic Mcl-1 increased during prostate cancer progression. Downregulation of Mcl-1 or USP9x levels improved the response of prostate cancer cells to radiotherapy. Moreover, radiotherapy itself was able to regulate Mcl-1 protein stability in prostate cancer cells. Background: Radiotherapy constitutes an important therapeutic option for prostate cancer. However, prostate cancer cells often acquire resistance during cancer progression, limiting the cytotoxic effects of radiotherapy. Among factors regulating sensitivity to radiotherapy are members of the Bcl-2 protein family, known to regulate apoptosis at the mitochondrial level. Here, we analyzed the role of anti-apoptotic Mcl-1 and USP9x, a deubiquitinase stabilizing Mcl-1 protein levels, in prostate cancer progression and response to radiotherapy. Methods: Changes in Mcl-1 and USP9x levels during prostate cancer progression were determined by immunohistochemistry. Neutralization of Mcl-1 and USP9x was achieved by siRNA-mediated knockdown. We analyzed Mcl-1 stability after translational inhibition by cycloheximide. Cell death was determined by flow cytometry using an exclusion assay of mitochondrial membrane potential-sensitive dye. Changes in the clonogenic potential were examined by colony formation assay. Results: Protein levels of Mcl-1 and USP9x increased during prostate cancer progression, and high protein levels correlated with advanced prostate cancer stages. The stability of Mcl-1 reflected Mcl-1 protein levels in LNCaP and PC3 prostate cancer cells. Moreover, radiotherapy itself affected Mcl-1 protein turnover in prostate cancer cells. Particularly in LNCaP cells, the knockdown of USP9x expression reduced Mcl-1 protein levels and increased sensitivity to radiotherapy. Conclusion: Posttranslational regulation of protein stability was often responsible for high protein levels of Mcl-1. Moreover, we demonstrated that deubiquitinase USP9x as a factor regulating Mcl-1 levels in prostate cancer cells, thus limiting cytotoxic response to radiotherapy.

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