Joel A. Spencer scite author profile

SUMMARY Clusters of circulating tumor cells (CTC-clusters) are present in the blood of patients with cancer but their contribution to metastasis is not well defined. Using mouse models with tagged mammary tumors, we demonstrate that CTC-clusters arise from oligoclonal tumor cell groupings and not from intravascular aggregation events. Although rare in the circulation compared with single CTCs, CTC-clusters have 23-50-fold increased metastatic potential. In patients with breast cancer, single-cell resolution RNA sequencing of CTC-clusters and single CTCs, matched within individual blood samples, identifies the cell junction component plakoglobin as highly differentially expressed. In mouse models, knockdown of plakoglobin abrogates CTC-cluster formation and suppresses lung metastases. In breast cancer patients, both abundance of CTC-clusters and high tumor plakoglobin levels denote adverse outcomes. Thus, CTC-clusters are derived from multicellular groupings of primary tumor cells held together through plakoglobin-dependent intercellular adhesion, and while rare, they greatly contribute to the metastatic spread of cancer.

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Direct measurement of local oxygen concentration in the bone marrow of live animals

Spencer

Ferraro

Roussakis

et al. 2014

Nature

979

843

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Characterizing how the microenvironment, or niche, regulates stem cell activity is central to understanding stem cell biology and to developing strategies for therapeutic manipulation of stem cells1. Low oxygen tension (hypoxia) is commonly thought to be a shared niche characteristic in maintaining quiescence in multiple stem cell types2–4. However, support for the existence of a hypoxic niche has largely come from indirect evidence such as proteomic analysis5, expression of HIF-1 and related genes6, and staining with surrogate hypoxic markers (e.g. pimonidazole)6–8. Here we perform direct in vivo measurements of local oxygen tension (pO2) in the bone marrow (BM) of live mice. Using two-photon phosphorescence lifetime microscopy (2PLM), we determined the absolute pO2 of the BM to be quite low (<32 mmHg) despite very high vascular density. We further uncovered heterogeneities in local pO2, with the lowest pO2 (~9.9 mmHg, or 1.3%) found in deeper peri-sinusoidal regions. The endosteal region, by contrast, is less hypoxic as it is perfused with small arteries that are often positive for the marker nestin. These pO2 values change dramatically after radiation and chemotherapy, pointing to the role of stress in altering the stem cell metabolic microenvironment.

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Joel A. Spencer

Circulating Tumor Cell Clusters Are Oligoclonal Precursors of Breast Cancer Metastasis

Direct measurement of local oxygen concentration in the bone marrow of live animals

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