Mouneimne Ghassan, Connors Casey, Watson Adam, Grant Adam, Campo Daniel, Ring Alexander, Kaur Pushpinder, Lang Julie E
University of Arizona Cancer Center, University of Arizona, Tucson, AZ 85724, USA.
Division of Breast Surgery, Cleveland Clinic, Lerner College of Medicine, 9500 Euclid Ave., Cleveland, OH 44195, USA.
Cancers (Basel). 2025 May 12;17(10):1632. doi: 10.3390/cancers17101632.
The mechanical conditioning (MeCo) score is a multigene expression signature that is acquired by cancer cells in the primary breast tumor and is reflective of their responsiveness to ECM stiffness caused by tumor fibrosis. Chromatin remodeling downstream of mechanotransduction allows cancer cells to retain these acquired aggressive features even in the absence of mechanical stimulation from the primary tumor microenvironment, for instance, after dissemination through systemic circulation during metastasis. Importantly, patients who have high MeCo score tumors are at higher risk of developing metastatic breast cancer, compared to those with low MeCo scores. Moreover, circulating tumor cells (CTCs) are associated with a higher rate of metastatic dissemination, making CTC detection in the circulation of patients with breast cancer a significant prognostic biomarker for breast cancer metastasis. Beyond their enumeration per blood volume units, specific prognostic features of CTCs are not fully explored. We sought to determine whether MeCo scores increase stepwise along the metastatic cascade, from primary tumors to CTCs to distant metastatic colonization, using patient-matched biopsies.
CTCs were isolated from the peripheral blood of two patient cohorts: patients with early-stage breast cancer using immunomagnetic enrichment/FACS methodology; and patients with late-stage breast cancer using the ANGLE Parsortix microfluidics system. Gene expression profiling using RNA-seq was performed on CTCs and matched primary tumors (PTs) in the early-stage cohort, and on CTCs and matched metastases (METs) for the late-stage cohorts. A quantile normalization approach was used to allow comparison across cohorts and MeCo scores were computed for all samples. The Wilcoxon matched-pairs signed rank test was performed for the comparison of MeCo scores from matching samples within each cohort; the Mann-Whitney unpaired test was used to compare MeCo scores of CTCs across cohorts.
In 12 pairs of patients with early-stage breast cancer, MeCo scores in CTCs were significantly higher than in their matched PTs ( = 0.026). Additionally, in 26 pairs of metastatic patient CTCs and METs, MeCo scores were significantly higher in METs compared to matched CTCs ( = 0.0004). MeCo scores of CTCs were similar between patients with early- and late-stage breast cancers, despite differing CTC isolation strategies (epitope-dependent and microfluidics size gradient). Notably, 98% of the genes in the MeCo score were present across evaluable CTC, MET, and PT samples.
Our results show that the MeCo score is higher in CTCs than in PTs, and higher in METs compared to CTCs, in early- and late-stage breast cancer, respectively (i.e., PT < CTC < MET). Therefore, the MeCo score is progressively higher throughout the metastatic cascade in breast cancer. These findings demonstrate that mechanical conditioning from primary tumors is retained during metastatic progression, after mechanical induction by ECM stiffness is lost, as cancer cells disseminate through systemic circulation. Additionally, these findings support that cancer cells with higher MeCo scores are more competent with-and potentially selected for-metastatic progression. Importantly, these findings provide a novel feature of CTCs, mechanical conditioning (MeCo), which is associated with higher capacity for metastasis. Furthermore, since the CTC MeCo score is elevated even in early-stage breast cancer, it could provide, in addition to CTC enumeration, a potential prognostic indicator to improve metastatic risk assessment in early disease.
机械调节(MeCo)评分是一种多基因表达特征,由原发性乳腺肿瘤中的癌细胞获得,反映了它们对肿瘤纤维化引起的细胞外基质硬度的反应性。机械转导下游的染色质重塑使癌细胞即使在没有原发性肿瘤微环境的机械刺激下,例如在转移过程中通过体循环播散后,仍能保留这些获得的侵袭性特征。重要的是,与MeCo评分低的患者相比,MeCo评分高的肿瘤患者发生转移性乳腺癌的风险更高。此外,循环肿瘤细胞(CTC)与更高的转移播散率相关,使得在乳腺癌患者循环中检测CTC成为乳腺癌转移的一个重要预后生物标志物。除了按每血容量单位计数外,CTC的特定预后特征尚未得到充分探索。我们试图通过患者匹配活检来确定MeCo评分是否沿着转移级联从原发性肿瘤到CTC再到远处转移定植逐步增加。
从两个患者队列的外周血中分离CTC:使用免疫磁珠富集/FACS方法分离早期乳腺癌患者的CTC;使用ANGLE Parsortix微流控系统分离晚期乳腺癌患者的CTC。对早期队列中的CTC和匹配的原发性肿瘤(PT)以及晚期队列中的CTC和匹配的转移灶(MET)进行RNA测序基因表达谱分析。采用分位数归一化方法进行队列间比较,并计算所有样本的MeCo评分。对每个队列中匹配样本的MeCo评分进行Wilcoxon配对符号秩检验;使用Mann-Whitney非配对检验比较不同队列中CTC的MeCo评分。
在12对早期乳腺癌患者中,CTC中的MeCo评分显著高于其匹配的PT(P = 0.026)。此外,在26对转移性患者的CTC和MET中,MET中的MeCo评分显著高于匹配的CTC(P = 0.0004)。尽管CTC分离策略不同(表位依赖性和微流控尺寸梯度),早期和晚期乳腺癌患者的CTC的MeCo评分相似。值得注意的是,MeCo评分中的98%的基因存在于可评估的CTC、MET和PT样本中。
我们的结果表明,在早期和晚期乳腺癌中,MeCo评分在CTC中高于PT,在MET中高于CTC(即PT < CTC < MET)。因此,MeCo评分在乳腺癌的转移级联过程中逐渐升高。这些发现表明,随着癌细胞通过体循环播散,在原发性肿瘤的机械诱导因细胞外基质硬度丧失后,原发性肿瘤的机械调节在转移进展过程中得以保留。此外,这些发现支持MeCo评分较高的癌细胞更适合并可能被选择用于转移进展。重要的是,这些发现提供了CTC的一个新特征,即机械调节(MeCo),它与更高的转移能力相关。此外,由于即使在早期乳腺癌中CTC的MeCo评分也会升高,除了CTC计数外,它还可以提供一个潜在的预后指标,以改善早期疾病的转移风险评估。
