Circulating tumor cells (CTCs) are vital components of liquid biopsies for diagnosis of residual cancer, monitoring of therapy response, and prognosis of recurrence. Scientific dogma focuses on metastasis mediated by single CTCs, but advancement of CTC detection technologies has elucidated multicellular CTC clusters, which are associated with unfavorable clinical outcomes and a 20-to 100-fold greater metastatic potential than single CTCs. While the mechanistic understanding of CTC cluster formation is still in its infancy, multiple cell adhesion molecules and tight junction proteins have been identified that underlie the outperforming attributes of homotypic and heterotypic CTC clusters, such as cell survival, cancer stemness, and immune evasion. Future directions include high-resolution characterization of CTCs at multiomic levels for diagnostic/prognostic evaluations and targeted therapies.
Circulating tumor cells form clusters that enhance breast cancer metastasisAlthough metastasis accounts for 90% of solid tumor-related mortality, it currently evades targeted treatments and demands a better understanding. Metastasis is a multistep process during which cancer cells spread from the primary tumor site to distant organs, starting with the primary tumor formation, where tumor cells gradually expand and locally invade the surrounding stroma and tissues, including the blood and lymphatic vessels. At this point, the intravasated tumor cells, now called 'circulating tumor cells' (CTCs) and a vital component of liquid biopsy [1,2], develop adaptive mechanisms that favor their survival in the harsh microenvironment of the circulatory system. CTCs may disseminate to distant parts of the body before they finally extravasate or get trapped within the capillaries in certain organs, form metastatic niches, and regenerate secondary tumors [3][4][5].The presence of CTCs in the blood of patients with cancer was first detected in 1869 by Thomas Ashworth [6], but, because of advances in technology, CTCs have only recently attracted great attention for their key role in tumor metastasis [6,7]. Many studies have shown that CTCs may be used to predict disease progression and prognosis in patients with metastatic cancer [4]. In metastatic cancers such as breast cancer, the currently accepted level of CTCs that correlates with worse overall survival and progression-free survival is five or more CTCs in 7.5 mL of blood [8]. CTC enumeration can be used to better stratify patients with stage IV breast cancer as stage IV aggressive, with more than five CTCs, and stage IV indolent, with fewer than five CTCs [8]. Stage IV indolent disease is associated with significantly longer overall survival, regardless of disease subtype and prior treatment [8]. The presence of CTCs in early breast cancer was also demonstrated to have prognostic impact [9,10]. Thus, CTC analysis in patients with cancer is a minimally invasive, clinically informative method of predicting disease stage and survival that is not dependent on cancer subtype or previous trea...
