Department of Pharmacology and Physiology, Drexel University College of Medicine, Philadelphia, PA, 19102, USA.
Champions Oncology, 1330 Piccard Drive, Rockville, MD, 20850, USA.
Oncogene. 2022 Feb;41(9):1337-1351. doi: 10.1038/s41388-021-02174-w. Epub 2022 Jan 8.
Metastasis-initiating cells (MICs) display stem cell-like features, cause metastatic recurrences and defy chemotherapy, which leads to patients' demise. Here we show that prostate and breast cancer patients harbor contingents of tumor cells with high expression of CX3CR1, OCT4a (POU5F1), and NANOG. Impairing CX3CR1 expression or signaling hampered the formation of tumor spheroids by cell lines from which we isolated small subsets co-expressing CX3CR1 and stemness-related markers, similarly to patients' tumors. These rare CX3CR1 cells show transcriptomic profiles enriched in pathways that regulate pluripotency and endowed with metastasis-initiating behavior in murine models. Cancer cells lacking these features (CX3CR1) were capable of re-acquiring CX3CR1-associated features over time, implying that MICs can continuously emerge from non-stem cancer cells. CX3CR1 expression also conferred resistance to docetaxel, and prolonged treatment with docetaxel selected CX3CR1 phenotypes with de-enriched transcriptomic profiles for apoptotic pathways. These findings nominate CX3CR1 as a novel marker of stem-like tumor cells and provide conceptual ground for future development of approaches targeting CX3CR1 signaling and (re)expression as therapeutic means to prevent or contain metastasis initiation.
转移起始细胞 (MICs) 表现出干细胞样特征,导致转移性复发并使化疗无效,从而导致患者死亡。在这里,我们表明前列腺癌和乳腺癌患者体内存在大量高表达 CX3CR1、OCT4a(POU5F1)和 NANOG 的肿瘤细胞。我们发现,破坏 CX3CR1 的表达或信号会阻碍从小部分细胞系中分离出来的、共同表达 CX3CR1 和干性相关标记物的肿瘤球体的形成,这些细胞系与患者的肿瘤相似。这些罕见的 CX3CR1 细胞表现出转录组谱,富含调节多能性的途径,并具有在小鼠模型中引发转移的能力。缺乏这些特征(CX3CR1)的癌细胞随着时间的推移能够重新获得与 CX3CR1 相关的特征,这意味着 MICs 可以不断从非干细胞癌细胞中出现。CX3CR1 的表达也赋予了对多西紫杉醇的耐药性,并且延长多西紫杉醇的治疗选择了 CX3CR1 表型,其凋亡途径的转录组谱去富集。这些发现将 CX3CR1 作为一种新型的干细胞样肿瘤细胞标志物,并为未来开发靶向 CX3CR1 信号和(重新)表达的方法提供了概念基础,以防止或控制转移起始。
