Analysis of the Plasticity of Circulating Tumor Cells Reveals Differentially Regulated Kinases During the Suspension‐to‐Adherent Transition

Smit, Daniel J.; Hoffer, Konstantin; Bettin, Bettina; Kriegs, Malte; Cayrefourcq, Laure; Schumacher, Udo; Pantel, Klaus; Alix‐Panabières, Catherine; Jücker, Manfred

doi:10.1002/cam4.70339

Cancer Medicine

2024

DOI: 10.1002/cam4.70339

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Analysis of the Plasticity of Circulating Tumor Cells Reveals Differentially Regulated Kinases During the Suspension‐to‐Adherent Transition

Daniel J. Smit,

Konstantin Hoffer,

Bettina Bettin

et al.

Abstract: BackgroundResearch on circulating tumor cells (CTCs) offers the opportunity to better understand the initial steps of blood‐borne metastasis as main cause of cancer‐related deaths. Here, we have used the colon cancer CTC‐MCC‐41 and breast cancer CTC‐ITB‐01 lines, which were both established from human CTCs as permanent cell lines as models to further study CTC biology with special emphasis on anchorage‐independent survival and growth.Methods and ResultsBoth cell lines showed a marked intrinsic plasticity to sw… Show more

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2024

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Adherent-suspension plasticity promotes the dissemination and colonization of circulating tumor cells

Huh,

Sub,

Kim

et al. 2024

Preprint

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BackgroundThe adherent-to-suspension transition (AST) describes how solid tumor cells reprograms their anchorage dependency via defined hematopoietic transcriptional regulators to disseminate into circulating tumor cells (CTCs). It remains unclear, however, whether the dissemination and colonization processes require dynamic plasticity of AST factor expression in CTCs to permit the completion of the metastatic cascade.MethodsWe investigated AST factor-mediated adherent-suspension plasticity (ASP) in a newly developed cell-based dissemination assay. Here we identified a rare population of CTC-like cells spontaneously suspended from highly confluent breast cancer cells under chronic stress conditions that mimic the tumor microenvironment (TME). We investigated the oscillatory dynamics of AST factor expression in these CTC-like cells and their role in dissemination and colonization. Furthermore, we performed a single-cell transcriptomic analysis of matched primary tumors, CTCs, and metastatic lesions from newly enrolledde novometastatic breast cancer patients, focusing on the plasticity of AST factor expression during the metastatic cascadein vivo.ResultsUsing data obtained from the dissemination assay andde novometastatic breast cancer patients, we have demonstrated the dynamic regulation of AST factor expression during the dissemination and colonization of CTCs bothin vitroandin vivo. From our dissemination assay of breast cancer cell lines, we show that AST factor induction is required for the reprogramming of anchorage dependency and spontaneous detachment of CTC-like cells. We also show that subsequent AST factor suppression is required for the reattachment of CTCs during colonization. Single-cell transcriptome analyses in matched specimens of primary tumor, CTC, and metastatic lesions obtained fromde novometastatic breast cancer patients confirmed the oscillatory dynamics of AST factors and related gene signatures related to the adherent-suspension plasticity.ConclusionOur results show that the reprogramming of anchorage dependency in solid tumor cells via AST factor-mediated ASP plays a critical role in the dissemination and colonization of CTCs. These findings highlight the potential of targeting AST factors to develop effective anti-metastatic therapies.

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Adherent-suspension plasticity promotes the dissemination and colonization of circulating tumor cells

Huh,

Sub,

Kim

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Analysis of the Plasticity of Circulating Tumor Cells Reveals Differentially Regulated Kinases During the Suspension‐to‐Adherent Transition

Cited by 1 publication

References 31 publications

Adherent-suspension plasticity promotes the dissemination and colonization of circulating tumor cells

Adherent-suspension plasticity promotes the dissemination and colonization of circulating tumor cells

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