Androgen receptor blockade to activate NK cells and to upregulate the surface expression of HLA-E in prostate cancer cell lines.

Abstract

190 Background: The blockade of the androgen receptor (AR) pathway is an effective treatment for prostate cancer (PCa), but most patients progress to castration-resistant prostate cancer (mCRPC). AR signaling modulates CD8+ T cytotoxic function, revealing the immune-modulatory function of the AR pathway. We have described the activation of NK cells by AR inhibitors and the potential synergistic effect with anti-NKG2a combination.1 Strategies to activate NK cells can be limited by the expression of HLA-E, a ligand of the inhibitory checkpoints on NK cells NKG2A. We investigated the mechanisms of AR-dependent modulation of HLA-E on tumor cells and the ADT-enhancing effect on patient-derived NK cells. Methods: PC cell lines were treated with second-generation androgen pathway inhibitors in vitro (enzalutamide 10uM, darolutamide 15 uM), and the expression of HLA-E was evaluated by flow cytometry. To evaluate the modulation of HLA-E by AR, the AR-negative cell lines (PC3 and DU145) were stably transduced with an inducible AR system. The pan HDAC inhibitors vorinostat (0.4 uM) and panobinostat (2.5 uM) were used to evaluate the regulation of HLA-E by epigenetics. We analyzed the activation status of paired peripheral blood NK cells isolated from patients with PCa prior to and post-androgen deprivation therapy (ADT). The patients (n=6) had a median time between collection of 26.3±2.3 days. Results: The AR-responsive LNCaP cell line displayed an increase in surface expression of HLA-E upon treatment with enzalutamide (Enza) or darolutamide (Daro) ([C]: 12.1±1.3%, Enza: 22.3±3.3%, Daro: 19.1±1.1%, p=0.004). AR blockade did not change the surface expression of HLA-E of AR negative PC3 ([C]: 10.5±2.7%, Daro: 13.1±2.3%, p=0.17) or DU145 cell lines ([C]: 3.5±1.7%, Daro: 2.5±0.6%, p=0.12). Transduction of AR in PC3 and DU145 lead to upregulation of HLA-E expression with AR blockade (PC3-AR+ [C]: 13.1±3.7%, Daro: 43.1±5.3%, DU145-AR+ [C]: 4.5±1.4%, Daro: 27.2±3.6%, p=0.001). The upregulation of HLA-E upon AR blockade was suppressed if cell lines were co-treated with vorinostat or panobinostat. Patient-derived peripheral blood NK cells displayed enhanced cytotoxic activity after ADT (expression of Granzyme B pre-ADT: 12.3±2.3%, post-ADT: 36.5±5.7% p=0.0017, Perforin pre-ADT: 3±0.6%, post-ADT: 26.5±3.7% p=0.001), and upregulation of the inhibitory checkpoint NKG2a (pre-ADT: 5.2±1.2%, post-ADT: 12.3±1.4%, p=0.04). Conclusions: Androgen inhibitors upregulate the expression of HLA-E in PCa cell lines by an AR-dependent mechanism regulated by epigenetics. ADT promotes peripheral blood patient-derived NK cell activation and upregulation of inhibitory NKG2A receptor. These findings support further investigative approaches targeting the HLA-E and NKG2A in mCRPC. 1. Schwermann, AACR 2023.