A Mouse Model of Human Breast Cancer Metastasis to Human Bone

Kuperwasser, Charlotte; Dessain, Scott; Bierbaum, Benjamin E.; Garnet, Dan; Sperandio, Kara; Gauvin, Gregory; Naber, Stephen P.; Weinberg, Robert A.; Rosenblatt, Michael

doi:10.1158/0008-5472.can-04-1408

Cited by 179 publications

(183 citation statements)

References 23 publications

(33 reference statements)

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“…In vivo models have been developed to study breast cancer metastases to bone by means of i.v. and skeletal injection of breast cancer cells in mice (13). Although in vivo models play an essential role in replicating physiological conditions, they lack the possibility to analyze highly specific interactions between human cancer cells, human blood vessels, and tissues, and they are not well suited to perform reproducible parametric studies.…”

mentioning

confidence: 99%

Human 3D vascularized organotypic microfluidic assays to study breast cancer cell extravasation

Jeon

Bersini

Gilardi

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

617

549

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A key aspect of cancer metastases is the tendency for specific cancer cells to home to defined subsets of secondary organs. Despite these known tendencies, the underlying mechanisms remain poorly understood. Here we develop a microfluidic 3D in vitro model to analyze organ-specific human breast cancer cell extravasation into bone- and muscle-mimicking microenvironments through a microvascular network concentrically wrapped with mural cells. Extravasation rates and microvasculature permeabilities were significantly different in the bone-mimicking microenvironment compared with unconditioned or myoblast containing matrices. Blocking breast cancer cell A3 adenosine receptors resulted in higher extravasation rates of cancer cells into themyoblast-containingmatrices compared with untreated cells, suggesting a role for adenosine in reducing extravasation. These results demonstrate the efficacy of our model as a drug screening platform and a promising tool to investigate specific molecular pathways involved in cancer biology, with potential applications to personalized medicine

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mentioning

confidence: 99%

Human 3D vascularized organotypic microfluidic assays to study breast cancer cell extravasation

Jeon

Bersini

Gilardi

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

617

549

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“…32 Humanized murine models of prostate cancer bone metastases which seek to incorporate a humanized bone marrow niche such as with engineered bone scaffolds seeded with human BM-MSCs, or human fetal or hip bone grafts, or engraftment of human haematopoietic stem cells and BM-MSCs into a murine background may generate predictive preclinical models but these are cumbersome and difficult modeling strategies which are not yet well established. [33][34][35][36] One strategy to demonstrate proof-of-principle implicating a candidate seed-and-soil mechanism in prostate cancer is to use the "clinic as laboratory" model to circumvent the limitations of existing animal models. For example, an early phase clinical study with a potent neutralizing antibody to a5b1 designed with a primary pharmacodynamic endpoint of preferential mobilization of a5b1-expressing circulating tumor cells into the peripheral blood of men with bone-dominant metastases could permit evidence for the role of the a5b1pathway in mediating adhesive interactions of prostate cancer cells in the bone marrow.…”

Section: Discussionmentioning

confidence: 99%

Proteolytic fragments of fibronectin function as matrikines driving the chemotactic affinity of prostate cancer cells to human bone marrow mesenchymal stromal cells via the α5β1 integrin

Joshi

Goihberg

Ren

et al. 2016

Cell Adhesion & Migration

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The haematopoietic niche is contributed to by bone marrow-resident mesenchymal stromal cells (BM-MSCs) and subverted by prostate cancer cells. To study mechanisms by which BM-MSCs and prostate cancer cells may interact, we assessed the migration, invasion, adhesion and proliferation of bone-derived prostate cancer cells (PC-3) in co-culture with pluripotent human BM-MSCs. We observed a strong adhesive, migratory and invasive phenotype of PC-3 cells with BM-MSC-coculture and set out to isolate and characterize the bioactive principle. Initial studies indicated that chemotaxis was secondary to a protein residing in the >100kDa fraction. Size-exclusion chromatography (SEC) recovered peak activity in a high-molecular weight fraction containing thrombospondin-1 (TSP1). While TSP1 immunodepletion decreased activity, put-back with purified TSP1 did not reproduce bioactivity. Further purification of the TSP1-containing high-molecular weight fraction of the BM-MSC secretome with heparin-affinity chromatography recovered bioactivity with highly restricted bands on polyacrylamide gel electrophoresis, determined by mass spectroscopy to be proteolytic fragments of fibronectin (FN). Put-back experiments with full-length FN permitted adhesion but failed to induce migration. Monospecific antibodies to FN blocked adhesion. Proteolytic cleavage of FN generated FN fragments which now induced migration. Neutralizing monoclonal antibodies to FN receptors a5 and b1 integrins, and a5 knockdown specifically blocked migration and adhesion. Conclusion: Fibronectin fragments (FNFr) function as matrikines driving the chemotactic affinity of prostate cancer cells via the a5b1 integrin. Taken together with the high-frequency of a5b1 expression in disseminated prostate cancer cells in bone marrow aspirates from patients, the FNFr/FN-a5b1 interaction warrants further study as a therapeutic target.

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“…The resultant light pink crude material was purified by flash column chromatography over silica gel with toluene:ether:acetic acid (63:35:2) to give a pale yellow oil (1.999 g, 91%). 1 676 g, 82%). Without further purification, the diamine (1.148 g, 7.16 mmol) was dissolved in 15 mL methanol:ethanol (2:3) and slowly added via addition funnel to a 15-mL solution of 2,4-pentadione (7.4 mL, 71.8 mmol) in methanol:ethanol (2:3) with vigorous stirring at 0°C.…”

Section: Methodsmentioning

confidence: 99%

“…This crude material was recrystalized in hot toluene to give a white crystalline solid (0.984 g, 42%). 1 [Co(III)(Heptanoic Acido)(Acacen)(NH 3)2] ؉ CH3COO ؊ [Co(III)-sb]. Cobalt acetate (0.182 g, 0.732 mmol) was dissolved in 5 mL methanol and filtered whereas compound 4 (0.238 g, 0.733 mmol) was dissolved separately in 5 mL methanol.…”

Section: Methodsmentioning

confidence: 99%

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Targeted inhibition of Snail family zinc finger transcription factors by oligonucleotide-Co(III) Schiff base conjugate

Harney

Lee²,

Manus³

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

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A Mouse Model of Human Breast Cancer Metastasis to Human Bone

Cited by 179 publications

References 23 publications

Human 3D vascularized organotypic microfluidic assays to study breast cancer cell extravasation

Human 3D vascularized organotypic microfluidic assays to study breast cancer cell extravasation

Proteolytic fragments of fibronectin function as matrikines driving the chemotactic affinity of prostate cancer cells to human bone marrow mesenchymal stromal cells via the α5β1 integrin

Targeted inhibition of Snail family zinc finger transcription factors by oligonucleotide-Co(III) Schiff base conjugate

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