Decoding MUC1 and AR axis in a radiation-induced neuroendocrine prostate cancer cell-subpopulation unveils novel therapeutic targets
Catarina Macedo-Silva, Ângela Albuquerque-Castro, Iris Carriço, Joana Lencart, Isa Carneiro, Lucia Altucci, João Lobo, Vera Miranda-Gonçalves, Rui Henrique, Margareta P. Correia, Carmen Jerónimo

TL;DR
This study explores how MUC1 and AR signaling interact in prostate cancer cells undergoing radiation treatment, revealing MUC1 as a potential target to improve therapy response.
Contribution
The study identifies MUC1 as a novel radiosensitization target in radiation-induced neuroendocrine prostate cancer progression.
Findings
MUC1 upregulation is associated with neuroendocrine traits and occurs via γSTAT3 activation.
MUC1 knockdown enhances radiosensitivity in resistant prostate cancer cell lines.
AR signaling suppression correlates with MUC1 activation and neuroendocrine progression.
Abstract
Despite the initial efficacy of radiotherapy (RT) in treating prostate adenocarcinoma (PCa), disease progression can lead to the emergence of neuroendocrine prostate cancer (NEPC) - a highly aggressive malignancy for which standard therapies are mostly ineffective. Although oncogenic MUC1-C is a leading driver of NEPC and of PCa lineage plasticity, its putative role in response to RT, including RT-induced neuroendocrine transdifferentiation (tNED), has not been explored. We thus aimed to explore the interplay between androgen receptor (AR) signaling and MUC1 in PCa progression to NEPC. Firstly, using a radioresistant PCa cell line (22Rv1-RR), we demonstrated that epigenetic suppression of AR signaling led to MUC1/MUC1-C upregulation, which seems to be activated through γSTAT3. MUC1 activation is positively associated with increased expression of neuroendocrine-related markers, including…
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Taxonomy
TopicsProstate Cancer Treatment and Research · Mass Spectrometry Techniques and Applications · Radiopharmaceutical Chemistry and Applications
