Cullin5 deficiency promotes small-cell lung cancer metastasis by stabilizing integrin β1
Gaoxiang Zhao, … , Daming Gao, Hongbin Ji
Gaoxiang Zhao, … , Daming Gao, Hongbin Ji
Published January 28, 2019
Citation Information: J Clin Invest. 2019;129(3):972-987. https://doi.org/10.1172/JCI122779.
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Research Article Oncology

Cullin5 deficiency promotes small-cell lung cancer metastasis by stabilizing integrin β1

Abstract

Metastasis is the dominant cause of patient death in small-cell lung cancer (SCLC), and a better understanding of the molecular mechanisms underlying SCLC metastasis may potentially improve clinical treatment. Through genome-scale screening for key regulators of mouse Rb1–/– Trp53–/– SCLC metastasis using the pooled CRISPR/Cas9 library, we identified Cullin5 (CUL5) and suppressor of cytokine signaling 3 (SOCS3), two components of the Cullin-RING E3 ubiquitin ligase complex, as top candidates. Mechanistically, the deficiency of CUL5 or SOCS3 disrupted the functional formation of the E3 ligase complex and prevented the degradation of integrin β1, which stabilized integrin β1 and activated downstream focal adhesion kinase/SRC (FAK/SRC) signaling and eventually drove SCLC metastasis. Low expression levels of CUL5 and SOCS3 were significantly associated with high integrin β1 levels and poor prognosis in a large cohort of 128 clinical patients with SCLC. Moreover, the CUL5-deficient SCLCs were vulnerable to the treatment of the FDA-approved SRC inhibitor dasatinib. Collectively, this work identifies the essential role of CUL5- and SOCS3-mediated integrin β1 turnover in controlling SCLC metastasis, which might have therapeutic implications.

Authors

Gaoxiang Zhao, Liyan Gong, Dan Su, Yujuan Jin, Chenchen Guo, Meiting Yue, Shun Yao, Zhen Qin, Yi Ye, Ying Tang, Qibiao Wu, Jian Zhang, Binghai Cui, Qiurong Ding, Hsinyi Huang, Liang Hu, Yuting Chen, Peiyuan Zhang, Guohong Hu, Luonan Chen, Kwok-Kin Wong, Daming Gao, Hongbin Ji

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Figure 5

SCLC-associated CUL5 and SOCS3 deficiency promotes SCLC progression by impairing integrin β1 degradation.

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SCLC-associated CUL5 and SOCS3 deficiency promotes SCLC progression by i...
(A) Schematic illustration of CUL5 mutants reported in human SCLC. (B) IB analyses of WCLs and IP from HEK293 cells transfected with SCLC-associated CUL5 mutants and Flag-SOCS3. Cells were treated with 10 μM MG132 for 10 hours before harvesting. Tubulin was used as a loading control. (C) IB analysis of lysates from the human SCLC cell line H345 stably expressing Flag-tagged WT-CUL5 or the indicated SCLC-associated CUL5 mutants. Actin was used as a loading control. (D) Schematic diagram of SOCS3 domains and a mutation found in human SCLC. (E) Co-IP analysis of the interaction of Flag-ITGB1 with the indicated SOCS3 constructs in HEK293T cells. Tubulin was used as a loading control. (F) IB analysis of lysates from H345 cells transfected with the indicated constructs. Actin was used as a loading control. (G and H) Representative images of IHC staining for integrin β1, CUL5, and SOCS3 from 128 SCLC specimens. Scale bars: 50 μm. (I) A significant negative correlation between CUL5-SOCS3 and integrin β1 levels was observed in human SCLC clinical samples. Statistical significance was determined using a χ2 test. CUL5/SOCS3 low indicates that CUL5 and/or SOCS3 levels were low; CUL5/SOCS3 high indicates that both CUL5 and SOCS3 levels were high. (J) Relative CUL5, SOCS3, and integrin β1 IHC scores were plotted on the basis of the Wilcoxon matched-pairs test. Data represent the mean ± SEM. *P < 0.05 and **P < 0.01, by Student’s t test. (K and L) Kaplan-Meier curves show the overall survival of SCLC patients with high or low expression of CUL5 and SOCS3 (K) and integrin β1 (L). Statistical significance was determined by log-rank test. (M) Sequencing of mRNA indicated that SOCS3 levels were significantly downregulated in human SCLC compared with levels in nontumor (NT) tissue. ***P < 0.001, by Student’s t test.