Distinct organ-specific metastatic potential of individual breast cancer cells and primary tumors
Andy J. Minn, … , Ronald Blasberg, Joan Massagué
Andy J. Minn, … , Ronald Blasberg, Joan Massagué
Published January 3, 2005
Citation Information: J Clin Invest. 2005;115(1):44-55. https://doi.org/10.1172/JCI22320.
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Article Oncology

Distinct organ-specific metastatic potential of individual breast cancer cells and primary tumors

Abstract

We used bioluminescence imaging to reveal patterns of metastasis formation by human breast cancer cells in immunodeficient mice. Individual cells from a population established in culture from the pleural effusion of a breast cancer patient showed distinct patterns of organ-specific metastasis. Single-cell progenies derived from this population exhibited markedly different abilities to metastasize to the bone, lung, or adrenal medulla, which suggests that metastases to different organs have different requirements. Transcriptomic profiling revealed that these different single-cell progenies similarly express a previously described “poor-prognosis” gene expression signature. Unsupervised classification using the transcriptomic data set supported the hypothesis that organ-specific metastasis by breast cancer cells is controlled by metastasis-specific genes that are separate from a general poor-prognosis gene expression signature. Furthermore, by using a gene expression signature associated with the ability of these cells to metastasize to bone, we were able to distinguish primary breast carcinomas that preferentially metastasized to bone from those that preferentially metastasized elsewhere. These results suggest that the bone-specific metastatic phenotypes and gene expression signature identified in a mouse model may be clinically relevant.

Authors

Andy J. Minn, Yibin Kang, Inna Serganova, Gaorav P. Gupta, Dilip D. Giri, Mikhail Doubrovin, Vladimir Ponomarev, William L. Gerald, Ronald Blasberg, Joan Massagué

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SCPs demonstrate different abilities to metastasize to the lung. (A–C) E...
SCPs demonstrate different abilities to metastasize to the lung. (AC) Each of the SCPs was labeled with the TGL reporter, and 2 × 105 cells were injected into the tail vein. At the indicated day after xenografting, bioluminescence images were acquired. (A) Representative mice injected with a representative set of SCPs are shown in the supine position. The intensity of the signal from day 0 is displayed on one scale, while that of days 14 and 49 (Day ≥14) are on a different scale due to increasing signal strength and to avoid signal saturation. (B) The normalized photon flux from the lung of all the SCPs studied was measured over the indicated time course. SCPs are color-coded as described in Figure 4B. (C) The lungs of SCPs that show growth in lung were analyzed histologically. A lung section from a representative SCP is shown stained for CD31, a marker for vascular endothelial cells, and counterstained with eosin. Asterisks mark regions of parenchymal tumor growth. The red arrow shows a CD31-positive blood vessel with an associated perivascular tumor growth pattern.