Although several studies have focused on cancer diagnosis and therapy, prostate cancer (PC) remains an intractable disease. Androgen deprivation therapy (ADT), which is used to treat early stage PC can lead to the development of castration-resistant prostate cancer (CRPC), which is highly associated with androgen receptor (AR) mutations. Nucleolar and coiled-body phosphoprotein 1 (NOLC1) is a chaperone that shuttles between the nucleus and the cytoplasm. Studies suggest that NOLC1 regulates PC progression; however, the underlying mechanisms remain unclear. Herein, we showed that NOLC1 knockdown suppresses PC cell proliferation by altering the signaling pathways and the expression of various proteins involved in DNA replication, amino acid metabolism, and RNA processing. Mechanistically, NOLC1 knockdown suppressed cell cycle progression by inhibiting AKT phosphorylation and β-catenin accumulation. Finally, we showed that NOLC1 expression is higher in human PC than in human hyperplastic prostate tissues. Altogether, we demonstrated that NOLC1 knockdown suppresses the progression of both AR-positive and AR-negative PC cells by inducing changes in the expression of several genes leading to cell cycle arrest. Thus, NOLC1 might be a novel and promising therapeutic target for PC.
Keywords: AKT; NOLC1; Prostate cancer; Proteomics; β-Catenin.
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