RSPO2 and RANKL signal through LGR4 to regulate osteoclastic premetastatic niche formation and bone metastasis
Zhiying Yue, … , Mingyao Liu, Jian Luo
Zhiying Yue, … , Mingyao Liu, Jian Luo
Published November 30, 2021
Citation Information: J Clin Invest. 2022;132(2):e144579. https://doi.org/10.1172/JCI144579.
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Research Article Bone biology Cell biology

RSPO2 and RANKL signal through LGR4 to regulate osteoclastic premetastatic niche formation and bone metastasis

Abstract

Therapeutics targeting osteoclasts are commonly used treatments for bone metastasis; however, whether and how osteoclasts regulate premetastatic niche and bone tropism are largely unknown. In this study, we report that osteoclast precursors (OPs) can function as a premetastatic niche component that facilitates breast cancer (BCa) bone metastasis at early stages. At the molecular level, unbiased GPCR ligand/agonist screening in BCa cells suggested that R-spondin 2 (RSPO2) and RANKL, through interaction with their receptor LGR4, promoted osteoclastic premetastatic niche formation and enhanced BCa bone metastasis. This was achieved by RSPO2/RANKL-LGR4 signal modulating the WNT inhibitor DKK1 through Gαq and β-catenin signaling. DKK1 directly facilitated OP recruitment through suppression of its receptor LDL receptor–related protein 5 (LRP5) but not LRP6, upregulating Rnasek expression via inhibition of canonical WNT signaling. In clinical samples, RSPO2, LGR4, and DKK1 expression showed a positive correlation with BCa bone metastasis. Furthermore, soluble LGR4 extracellular domain (ECD) protein, acting as a decoy receptor for RSPO2 and RANKL, significantly alleviated bone metastasis and osteolytic lesions in a mouse bone metastasis model. These findings provide unique insights into the functional role of OPs as key components of the premetastatic niche for BCa bone metastasis and identify RSPO2/RANKL-LGR4 signaling as a promising target for inhibiting BCa bone metastasis.

Authors

Zhiying Yue, Xin Niu, Zengjin Yuan, Qin Qin, Wenhao Jiang, Liang He, Jingduo Gao, Yi Ding, Yanxi Liu, Ziwei Xu, Zhenxi Li, Zhengfeng Yang, Rong Li, Xiwen Xue, Yankun Gao, Fei Yue, Xiang H.-F. Zhang, Guohong Hu, Yi Wang, Yi Li, Geng Chen, Stefan Siwko, Alison Gartland, Ning Wang, Jianru Xiao, Mingyao Liu, Jian Luo

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Figure 7

RSPO2/RANKL-LGR4 signaling induced DKK1 expression though Gαq and β-catenin signaling pathway.

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RSPO2/RANKL-LGR4 signaling induced DKK1 expression though Gαq and β-cate...
(A) Serum RSPO2/RANKL/DKK1 levels in BCa patients. Data indicate the mean ± SD. *P < 0.05, **P < 0.01, Kruskal-Wallis test. Benign, n = 9; primary, n = 28; bone metastasis, n = 10. (B) Serum RSPO2/DKK1 and RANKL/DKK1 correlations in BCa patients with bone metastasis. Pearson’s correlation analysis. (C) DKK1 mRNA levels in MDA231 cells stimulated with RSPO2 (left) or RANKL (right) for 6 hours with or without LGR4 knockdown. Data indicate the mean ± SD. ***P < 0.001, 1-way ANOVA with Tukey’s post hoc test. n = 3 biological replicates. (D) Dkk1 mRNA levels in murine primary cultured tumor cells (MMTV-PyMT Lgr4fl/fl and MMTV-PyMT MMTV-Cre Lgr4fl/fl [CKO]) stimulated with RSPO2 or RANKL for 6 hours. Data indicate the mean ± SD. ***P < 0.001, 1-way ANOVA with Tukey’s post hoc test. n = 4 biological replicates. (E) DKK1 mRNA levels in LGR4- or RANK-knockdown MDA231 cells following treatment with RANKL for 6 hours. Data indicate the mean ± SD. **P < 0.01, 1-way ANOVA with Tukey’s post hoc test. n = 3 biological repeats. (F and G) DKK1 mRNA levels in MDA231 cells stimulated with RSPO2 or RANKL for 6 hours with or without 2 siRNAs targeting Gαq or transfected with vectors expressing 2 Gαq inhibitors (the C-terminal domain of Gαq [Gαq-CT] or regulator of G protein signaling 2 [RGS2]). Data indicate the mean ± SD. **P < 0.01, ***P < 0.001, 1-way ANOVA with Tukey’s post hoc test. n = 3 biological repeats. (H) DKK1 mRNA levels in MDA231 cells stimulated with RSPO2 (left) or RANKL (right) for 6 hours with or without inhibition of β-catenin. Data indicate the mean ± SD. ***P < 0.001, 1-way ANOVA with Tukey’s post hoc test. n = 3 biological replicates.