Double-faced CX3CL1 enhances lymphangiogenesis-dependent metastasis in an aggressive subclone of oral squamous cell carcinoma
Htoo Shwe Eain, … , Seiji Iida, Hitoshi Nagatsuka
Htoo Shwe Eain, … , Seiji Iida, Hitoshi Nagatsuka
Published May 22, 2024
Citation Information: JCI Insight. 2024;9(10):e174618. https://doi.org/10.1172/jci.insight.174618.
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Research Article Oncology

Double-faced CX3CL1 enhances lymphangiogenesis-dependent metastasis in an aggressive subclone of oral squamous cell carcinoma

Abstract

Because cancer cells have a genetically unstable nature, they give rise to genetically different variant subclones inside a single tumor. Understanding cancer heterogeneity and subclone characteristics is crucial for developing more efficacious therapies. Oral squamous cell carcinoma (OSCC) is characterized by high heterogeneity and plasticity. On the other hand, CX3C motif ligand 1 (CX3CL1) is a double-faced chemokine with anti- and pro-tumor functions. Our study reported that CX3CL1 functioned differently in tumors with different cancer phenotypes, both in vivo and in vitro. Mouse OSCC 1 (MOC1) and MOC2 cells responded similarly to CX3CL1 in vitro. However, in vivo, CX3CL1 increased keratinization in indolent MOC1 cancer, while CX3CL1 promoted cervical lymphatic metastasis in aggressive MOC2 cancer. These outcomes were due to double-faced CX3CL1 effects on different immune microenvironments indolent and aggressive cancer created. Furthermore, we established that CX3CL1 promoted cancer metastasis via the lymphatic pathway by stimulating lymphangiogenesis and transendothelial migration of lymph-circulating tumor cells. CX3CL1 enrichment in lymphatic metastasis tissues was observed in aggressive murine and human cell lines. OSCC patient samples with CX3CL1 enrichment exhibited a strong correlation with lower overall survival rates and higher recurrence and distant metastasis rates. In conclusion, CX3CL1 is a pivotal factor that stimulates the metastasis of aggressive cancer subclones within the heterogeneous tumors to metastasize, and our study demonstrates the prognostic value of CX3CL1 enrichment in long-term monitoring in OSCC.

Authors

Htoo Shwe Eain, Hotaka Kawai, Masaaki Nakayama, May Wathone Oo, Toshiaki Ohara, Yoko Fukuhara, Kiyofumi Takabatake, Quisheng Shan, Yamin Soe, Kisho Ono, Keisuke Nakano, Nobuyoshi Mizukawa, Seiji Iida, Hitoshi Nagatsuka

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Figure 1

Cx3cl1 is the upregulated gene in aggressive syngeneic mouse OSCC tumors.

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Cx3cl1 is the upregulated gene in aggressive syngeneic mouse OSCC tumor...
MOC1 and MOC2 data analysis was done, and the chemokine-associated genes upregulated in MOC2 were selected. (A) Flowchart of chemokine-related gene analysis in MOC cell lines. We selected the differentially expressed genes (DEGs) of MOC using GEO2R. Then, we used the Database for Annotation, Visualization and Integrated Discovery (DAVID) software to choose the genes related to chemokine and chemotaxis functions with a cutoff line at q < 0.05 and identified chemokine-related genes in MOC2. (B) Volcano plot analysis showing upregulated and downregulated DEGs in MOC2 versus MOC1 of GEO data (GSE50041). The blue dots represent the downregulated DEGs, and the red dots represent the upregulated DEGs. Padj < 0.05. (C) Heatmap summary of genes from chemokine-related categories from DAVID functional enrichment analysis. (D) Heatmap summary of the expression level of chemokine-related genes with q < 0.05 in MOC2 versus MOC1. (E) Relative mRNA expression of Cx3cl1 in MOC2 versus MOC1 was determined by quantitative reverse-transcriptase PCR (RT-qPCR). Cx3cl1 expression was analyzed by the 2–ΔΔCt method. Cx3cl1 expression level in MOC1 was set as 1. (n = 3.) All data are presented as mean ± SEM. Statistical analysis was done using Student’s t test. **P < 0.01.