Article Synopsis
- Current treatments for advanced prostate cancer primarily focus on blocking the androgen receptor through androgen deprivation therapy (ADT).
- The development of castration-resistant prostate cancer is influenced by complex interactions between tumor suppressors, oncogenes, and altered AR expression.
- This study examines how the AR antagonist enzalutamide affects the secretion of extracellular vesicles (EVs) and identifies a potential link between EV-derived proteins and prostate cancer progression, highlighting the interplay between AR signaling and EV pathways in ADT resistance.
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Article Abstract
Current treatments for advanced prostate cancer focus on inhibition of the androgen receptor (AR) by androgen deprivation therapy (ADT). However, complex interactions mediated by tumor suppressors, oncogenes, aberrations of AR expression, or de novo androgen production have been shown to induce the adaptive response of prostate cancer, leading to the development of castration resistant prostate cancer. In this study, we report the effects of AR antagonist, enzalutamide on the protein contents of extracellular vesicles (EVs). EVs mediate cell-to-cell communication and increasing evidence shows the role of EVs in promoting cancer survival and metastasis. We found that treatment with enzalutamide alters the secretion of EVs, one of which is a plasma membrane calcium pump, ATP2B1/PMCA ATPase, as an AR-regulated EV protein. We highlight the networks of interactions between AR, Ca , and ATP2B1, where the extracellular proteins thrombospondin-1, gelsolin, and integrinß1 were previously reported as regulators for cancer progression and metastasis, indicating the potential role of EV-derived proteins in mediating calcium homoeostasis under AR inhibition by enzalutamide. Our data further highlight the cross-talk between AR signaling and EV pathways in mediating resistance toward ADT.
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