An anti-androgen resistance-related gene signature acts as a prognostic marker and increases enzalutamide efficacy via PLK1 inhibition in prostate cancer

An anti-androgen resistance-related gene signature acts as a prognostic marker and increases enzalutamide efficacy via PLK1 inhibition in prostate cancer

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Abstract Background Anti-androgen resistance remains a major clinical challenge in the treatment of prostate cancer (PCa), leading to disease progression and treatment failure.Despite extensive research on resistance mechanisms, a reliable prognostic model for predicting patient outcomes and guiding therapeutic strategies is still lacking.This study aimed to develop a novel gene signature related to anti-androgen NAIRAS Version 3 Atmospheric Ionizing Radiation Validation: Comparisons to RaD‐X Measurements resistance and evaluate its prognostic and therapeutic implications.Methods Anti-androgen resistance-related differentially expressed genes (ARRDEGs) were identified through transcriptomic analysis of enzalutamide- and dual enzalutamide abiraterone-resistant PCa cell lines from the GEO database.

Functional enrichment analysis was performed to determine the biological roles of these genes.A prognostic gene signature was developed using univariate Cox regression, LASSO, and multivariate Cox regression models.The model was validated in independent PCa cohorts from The Cancer Genome Atlas (TCGA).Additionally, we assessed the correlation between the signature, immune infiltration, immune checkpoint expression, and drug sensitivity.

The efficacy of PLK1 inhibition combined with enzalutamide was further explored using in vitro and in vivo experiments.Results We identified 304 ARRDEGs, from which three key genes (LMNB1, SSPO, and PLK1) were selected to construct a prognostic signature.This gene signature effectively stratified PCa patients COVID-19 and persons with disabilities in the Philippines: A policy analysis into high- and low-risk groups, with the high-risk group exhibiting shorter recurrence-free survival and distinct immune characteristics.High-risk patients demonstrated elevated immune checkpoint expression (B7H3, CTLA-4, B7-1, and TIGIT), increased M2 macrophage infiltration, and enhanced sensitivity to chemotherapy and targeted therapy.

Mechanistically, PLK1 inhibition potentiated the antitumor effect of enzalutamide by downregulating SLC7A11 and inducing ferroptosis, providing a potential therapeutic strategy to overcome anti-androgen resistance.Conclusion We established a novel ARRDEGs-based prognostic signature that predicts PCa progression and response to chemotherapy and targeted therapy.The integration of this signature with immune profiling and drug sensitivity analysis provides a valuable tool for precision oncology in PCa.Our findings highlight the potential of PLK1 inhibition as a therapeutic strategy to enhance enzalutamide efficacy and overcome resistance.