ADORA2A-driven proline synthesis triggers epigenetic reprogramming in neuroendocrine prostate and lung cancers
Na Jing, Kai Zhang, Xinyu Chen, Kaiyuan Liu, Jinming Wang, Lingling Xiao, Wentian Zhang, Pengfei Ma, Penghui Xu, Chaping Cheng, Deng Wang, Huifang Zhao, Yuman He, Zhongzhong Ji, Zhixiang Xin, Yujiao Sun, Yingchao Zhang, Wei Bao, Yiming Gong, Liancheng Fan, Yiyi Ji, Guanglei Zhuang, Qi Wang, Baijun Dong, Pengcheng Zhang, Wei Xue, Wei-Qiang Gao, Helen He Zhu
Na Jing, Kai Zhang, Xinyu Chen, Kaiyuan Liu, Jinming Wang, Lingling Xiao, Wentian Zhang, Pengfei Ma, Penghui Xu, Chaping Cheng, Deng Wang, Huifang Zhao, Yuman He, Zhongzhong Ji, Zhixiang Xin, Yujiao Sun, Yingchao Zhang, Wei Bao, Yiming Gong, Liancheng Fan, Yiyi Ji, Guanglei Zhuang, Qi Wang, Baijun Dong, Pengcheng Zhang, Wei Xue, Wei-Qiang Gao, Helen He Zhu
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Research Article Metabolism Oncology

ADORA2A-driven proline synthesis triggers epigenetic reprogramming in neuroendocrine prostate and lung cancers

Abstract

Cell lineage plasticity is one of the major causes for the failure of targeted therapies in various cancers. However, the driver and actionable drug targets in promoting cancer cell lineage plasticity are scarcely identified. Here, we found that a G protein-coupled receptor, ADORA2A, is specifically upregulated during neuroendocrine differentiation, a common form of lineage plasticity in prostate cancer and lung cancer following targeted therapies. Activation of the ADORA2A signaling rewires the proline metabolism via an ERK/MYC/PYCR cascade. Increased proline synthesis promotes deacetylases SIRT6/7-mediated deacetylation of histone H3 at lysine 27 (H3K27), and thereby biases a global transcriptional output toward a neuroendocrine lineage profile. Ablation of Adora2a in genetically engineered mouse models inhibits the development and progression of neuroendocrine prostate and lung cancers, and, intriguingly, prevents the adenocarcinoma-to-neuroendocrine phenotypic transition. Importantly, pharmacological blockade of ADORA2A profoundly represses neuroendocrine prostate and lung cancer growth in vivo. Therefore, we believe that ADORA2A can be used as a promising therapeutic target to govern the epigenetic reprogramming in neuroendocrine malignancies.

Authors

Na Jing, Kai Zhang, Xinyu Chen, Kaiyuan Liu, Jinming Wang, Lingling Xiao, Wentian Zhang, Pengfei Ma, Penghui Xu, Chaping Cheng, Deng Wang, Huifang Zhao, Yuman He, Zhongzhong Ji, Zhixiang Xin, Yujiao Sun, Yingchao Zhang, Wei Bao, Yiming Gong, Liancheng Fan, Yiyi Ji, Guanglei Zhuang, Qi Wang, Baijun Dong, Pengcheng Zhang, Wei Xue, Wei-Qiang Gao, Helen He Zhu

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Figure 1

ADORA2A is a selectively upregulated cell membrane protein in NEPC.

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ADORA2A is a selectively upregulated cell membrane protein in NEPC. (A) ...
(A) Screening the upregulated cell membrane proteins in NEPC versus ADPC based on reanalysis of Beltran (24) (NEPC, n = 13; ADPC, n = 36) and SU2C (25) (NEPC, n = 52; ADPC, n = 214) PCa data sets. (B) The heatmap reveals that ADORA2A is a top-ranked cell membrane protein in NEPC versus ADPC based on Beltran PCa data set (24). (C and D) Quantification of ADORA2A mRNA levels in ADPC and NEPC using Beltran (24) (C) and SU2C (D) PCa data sets (25). (E) The Kaplan-Meier survival curves exhibit a significantly shorter survival of patients with a high ADORA2A expression based on SU2C (High, n = 38; Low, n = 41) PCa data sets (25), cutoff value was 50%. (F) Representative IHC showing the ADORA2A levels in ADPC (n = 35) and NEPC (n = 31) clinical tumor sections. Upper panel scale bar: 200 μm; Lower panel scale bar: 50 μm. (G) Representative RT-qPCR shows mRNA levels in LNCaP/AR-shRB1/TP53 and scramble cells (n = 3 independent experiments). (H) Representative immunoblotting demonstrates an elevated ADORA2A level in LNCaP/AR-shRB1/TP53 compared with scramble cells (n = 3 independent experiments). (I) H&E showing the histology of MychiPtenΔ/Δ, TRAMP, and Rb1Δ/ΔTrp53Δ/Δ prostate tumors from 6-to-8-month-old mice (the left panel). IHC staining demonstrates the expression of ADORA2A, AR, CK8, and SYP in these tumors (scale bar: 100 μm; zoom in area scale bar: 5 μm). (J) RT-qPCR showing Adora2a levels from organoids from indicated GEMMs (n = 3 biological replicates). For statistical analysis, student’s t tests were used for C and G; Mann-Whitney test was utilized for D; Log-rank test was employed in E; 1-way ANOVA with Dunnett’s posthoc test was applied in J. *P < 0.05, **P < 0.01, ***P < 0.001, data are presented as mean ± SEM.