CRMP2 inhibits metastasis formation by impairing ILF3-dependent stabilization of CXCL10 mRNA in breast cancer
Binyan Lin, Mei Luo, Yanqing Zhou, Xin Liu, Qin Zhu, Zebin Weng, Lei Li, Tao Cao, Jing Sun, Dawei Yang, E-Hu Liu

TL;DR
CRMP2 prevents breast cancer metastasis by reducing CXCL10 mRNA stability through ILF3, offering a new therapeutic target.
Contribution
Identifies a novel CRMP2-ILF3-CXCL10 pathway in breast cancer metastasis and suggests psoralen as a potential treatment.
Findings
CRMP2 overexpression inhibits lung metastasis and pre-metastatic niche formation in breast cancer.
CRMP2 reduces CXCL10 levels by proteasome-dependent degradation of ILF3, which stabilizes CXCL10 mRNA.
Psoralen interacts with CRMP2 to suppress lung metastases in breast cancer.
Abstract
Tumor-derived elements contribute to the formation of the pre-metastatic niche (PMN) and facilitate cancer metastasis, but much less is known about the key molecular mechanisms. Here, we demonstrate that collapsin response mediator protein 2 (CRMP2), a critical regulator of the cytoskeleton, is associated with metastasis in breast cancer. CRMP2 overexpression inhibits both lung metastasis and PMN formation in breast cancer. Mechanistically, CRMP2 overexpression leads to downregulation of CXCL10. We also found that the correlation between CRMP2 and CXCL10 is mediated by interleukin enhancer-binding factor 3 (ILF3). The D-hydantoinases (D-HYD) fragment of CRMP2 specifically interacts with the second double-stranded RNA binding motif (dsRBM2) of ILF3. Overexpressed CRMP2 reduces the expression of ILF3 in proteasome-dependent degradation via Lys 48-linked polyubiquitination at Lys257,…
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Taxonomy
TopicsAxon Guidance and Neuronal Signaling · S100 Proteins and Annexins · Cancer Research and Treatments
