PARP inhibitors restore NK cell function via secretory crosstalk with tumor cells in prostate cancer
Zheng Chao, Le Li, Xiaodong Hao, Hao Peng, Yanan Wang, Chunyu Zhang, Xiangdong Guo, Peikun Liu, Sheng Ma, Junbiao Zhang, Guanyu Qu, Yuzheng Peng, Zhengping Wei, Jing Luo, Bo Liu, Peixiang Lan, Zhihua Wang
Zheng Chao, Le Li, Xiaodong Hao, Hao Peng, Yanan Wang, Chunyu Zhang, Xiangdong Guo, Peikun Liu, Sheng Ma, Junbiao Zhang, Guanyu Qu, Yuzheng Peng, Zhengping Wei, Jing Luo, Bo Liu, Peixiang Lan, Zhihua Wang
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Research Article Immunology Oncology

PARP inhibitors restore NK cell function via secretory crosstalk with tumor cells in prostate cancer

Abstract

Prostate cancer (PCa) is one of the most frequently diagnosed malignancies and the main cause of cancer-related death in men worldwide. Poly(ADP-ribose) polymerase inhibitors (PARPi) have been approved for the treatment of PCa harboring BRCA1/2 mutations. While the survival benefits conferred by PARPi may extend beyond this specific patient population based on evidence from recent clinical trials, the underlying mechanisms remain unexplored. Here, we demonstrate that PARPi substantially restored NK cell functions by promoting cyclophilin A (CypA) secretion from PCa cells, which correlated with improved prognosis in PCa patients from our and public cohorts. Mechanistically, tumor-derived CypA specifically from PCa cells bound to ANXA6 and activated the downstream FPR1 signaling pathway, leading to increased mitochondrial oxidative phosphorylation and NK cell activation. Pharmacological inhibition of CypA blocked FPR1/AKT signaling and diminished the cytotoxic effects of NK cells, thereby compromising the therapeutic efficacy of PARPi against PCa. Conversely, combining NK cell adoptive transfer therapy with PARPi markedly prolonged survival in mice bearing PCa. Collectively, we reveal a unique secretory crosstalk between PCa cells and NK cells induced by PARPi and propose a promising strategy for treating PCa.

Authors

Zheng Chao, Le Li, Xiaodong Hao, Hao Peng, Yanan Wang, Chunyu Zhang, Xiangdong Guo, Peikun Liu, Sheng Ma, Junbiao Zhang, Guanyu Qu, Yuzheng Peng, Zhengping Wei, Jing Luo, Bo Liu, Peixiang Lan, Zhihua Wang

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Figure 2

PARPi stimulate PCa cells to release CypA.

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PARPi stimulate PCa cells to release CypA. (A) Paired peripheral blood s...
(A) Paired peripheral blood serum samples from 5 PCa patients before and after PARPi treatment were analyzed using proteomics profiling. (B) Heatmap showing changes in serum protein profiles before and after PARPi treatment. (C and D) RT-qPCR analysis of PARPi-induced changes in CypA mRNA levels in murine PCa cell lines (C) and human PCa cell lines (D); N = 3 per group. (E and F) Western blot analysis of PARPi-induced changes in intracellular CypA (cCypA) and eCypA protein levels in murine (E) and human (F) PCa cell lines. (G and H) ELISA of PARPi-induced changes in CypA supernatant levels in murine (G) and human (H) PCa cell lines. (I and J) DCFH-DA (green) staining to detect PARPi-induced ROS levels in PCa cell lines RM-1 (I; N = 3) and MycCap/DU145/22RV1 (J; N = 5). Original magnification, ×100. (K) Gene Ontology enrichment analysis showing enhanced intracellular transport pathways in PCa cells after PARPi stimulation. (L) Western blot analysis of cCypA and eCypA levels after protein transport inhibition by Brefeldin A (BFA). Data are presented as mean ± SEM and were analyzed by Welch’s t test.