ADAM8 expression in invasive breast cancer promotes tumor dissemination and metastasis

Mathilde Romagnoli; Nora D Mineva; Michael Polmear; Catharina Conrad; Srimathi Srinivasan; Delphine Loussouarn; Sophie Barillé-Nion; Irene Georgakoudi; Aine Dagg; Enda W McDermott; Michael J Duffy; Patricia M McGowan; Uwe Schlomann; Madeline Parsons; Jörg W Bartsch; Gail E Sonenshein

doi:10.1002/emmm.201303373

ADAM8 expression in invasive breast cancer promotes tumor dissemination and metastasis

Mathilde Romagnoli, Nora D Mineva, Michael Polmear, Catharina Conrad, Srimathi Srinivasan, Delphine Loussouarn, Sophie Barillé-Nion, Irene Georgakoudi, Aine Dagg, Enda W McDermott, Michael J Duffy, Patricia M McGowan, Uwe Schlomann, Madeline Parsons, Jörg W Bartsch, Gail E Sonenshein

Tufts University

Research output: Contribution to journal › Article › peer-review

86 Citations (Scopus)

Abstract

The transmembrane metalloprotease-disintegrin ADAM8 mediates cell adhesion and shedding of ligands, receptors and extracellular matrix components. Here, we report that ADAM8 is abundantly expressed in breast tumors and derived metastases compared to normal tissue, especially in triple-negative breast cancers (TNBCs). Furthermore, high ADAM8 levels predicted poor patient outcome. Consistently, ADAM8 promoted an aggressive phenotype of TNBC cells in culture. In a mouse orthotopic model, tumors derived from TNBC cells with ADAM8 knockdown failed to grow beyond a palpable size and displayed poor vascularization. Circulating tumor cells and brain metastases were also significantly reduced. Mechanistically, ADAM8 stimulated both angiogenesis through release of VEGF-A and transendothelial cell migration via β1-integrin activation. In vivo, treatment with an anti-ADAM8 antibody from the time of cell inoculation reduced primary tumor burden and metastases. Furthermore, antibody treatment of established tumors profoundly decreased metastases in a resection model. As a non-essential protein under physiological conditions, ADAM8 represents a promising novel target for treatment of TNBCs, which currently lack targeted therapies and frequently progress with fatal dissemination.

Original language	English
Article number	N/A
Pages (from-to)	278-294
Number of pages	17
Journal	EMBO Molecular Medicine
Volume	6
Issue number	2
DOIs	https://doi.org/10.1002/emmm.201303373
Publication status	Published - 1 Feb 2014

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Romagnoli, M., Mineva, N. D., Polmear, M., Conrad, C., Srinivasan, S., Loussouarn, D., Barillé-Nion, S., Georgakoudi, I., Dagg, A., McDermott, E. W., Duffy, M. J., McGowan, P. M., Schlomann, U., Parsons, M., Bartsch, J. W., & Sonenshein, G. E. (2014). ADAM8 expression in invasive breast cancer promotes tumor dissemination and metastasis. EMBO Molecular Medicine, 6(2), 278-294. Article N/A. https://doi.org/10.1002/emmm.201303373

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title = "ADAM8 expression in invasive breast cancer promotes tumor dissemination and metastasis",

abstract = "The transmembrane metalloprotease-disintegrin ADAM8 mediates cell adhesion and shedding of ligands, receptors and extracellular matrix components. Here, we report that ADAM8 is abundantly expressed in breast tumors and derived metastases compared to normal tissue, especially in triple-negative breast cancers (TNBCs). Furthermore, high ADAM8 levels predicted poor patient outcome. Consistently, ADAM8 promoted an aggressive phenotype of TNBC cells in culture. In a mouse orthotopic model, tumors derived from TNBC cells with ADAM8 knockdown failed to grow beyond a palpable size and displayed poor vascularization. Circulating tumor cells and brain metastases were also significantly reduced. Mechanistically, ADAM8 stimulated both angiogenesis through release of VEGF-A and transendothelial cell migration via β1-integrin activation. In vivo, treatment with an anti-ADAM8 antibody from the time of cell inoculation reduced primary tumor burden and metastases. Furthermore, antibody treatment of established tumors profoundly decreased metastases in a resection model. As a non-essential protein under physiological conditions, ADAM8 represents a promising novel target for treatment of TNBCs, which currently lack targeted therapies and frequently progress with fatal dissemination.",

author = "Mathilde Romagnoli and Mineva, {Nora D} and Michael Polmear and Catharina Conrad and Srimathi Srinivasan and Delphine Loussouarn and Sophie Barill{\'e}-Nion and Irene Georgakoudi and Aine Dagg and McDermott, {Enda W} and Duffy, {Michael J} and McGowan, {Patricia M} and Uwe Schlomann and Madeline Parsons and Bartsch, {J{\"o}rg W} and Sonenshein, {Gail E}",

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Romagnoli, M, Mineva, ND, Polmear, M, Conrad, C, Srinivasan, S, Loussouarn, D, Barillé-Nion, S, Georgakoudi, I, Dagg, A, McDermott, EW, Duffy, MJ, McGowan, PM, Schlomann, U , Parsons, M , Bartsch, JW & Sonenshein, GE 2014, 'ADAM8 expression in invasive breast cancer promotes tumor dissemination and metastasis', EMBO Molecular Medicine, vol. 6, no. 2, N/A, pp. 278-294. https://doi.org/10.1002/emmm.201303373

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AU - Romagnoli, Mathilde

AU - Mineva, Nora D

AU - Polmear, Michael

AU - Conrad, Catharina

AU - Srinivasan, Srimathi

AU - Loussouarn, Delphine

AU - Barillé-Nion, Sophie

AU - Georgakoudi, Irene

AU - Dagg, Aine

AU - McDermott, Enda W

AU - Duffy, Michael J

AU - McGowan, Patricia M

AU - Schlomann, Uwe

AU - Parsons, Madeline

AU - Bartsch, Jörg W

AU - Sonenshein, Gail E

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N2 - The transmembrane metalloprotease-disintegrin ADAM8 mediates cell adhesion and shedding of ligands, receptors and extracellular matrix components. Here, we report that ADAM8 is abundantly expressed in breast tumors and derived metastases compared to normal tissue, especially in triple-negative breast cancers (TNBCs). Furthermore, high ADAM8 levels predicted poor patient outcome. Consistently, ADAM8 promoted an aggressive phenotype of TNBC cells in culture. In a mouse orthotopic model, tumors derived from TNBC cells with ADAM8 knockdown failed to grow beyond a palpable size and displayed poor vascularization. Circulating tumor cells and brain metastases were also significantly reduced. Mechanistically, ADAM8 stimulated both angiogenesis through release of VEGF-A and transendothelial cell migration via β1-integrin activation. In vivo, treatment with an anti-ADAM8 antibody from the time of cell inoculation reduced primary tumor burden and metastases. Furthermore, antibody treatment of established tumors profoundly decreased metastases in a resection model. As a non-essential protein under physiological conditions, ADAM8 represents a promising novel target for treatment of TNBCs, which currently lack targeted therapies and frequently progress with fatal dissemination.

AB - The transmembrane metalloprotease-disintegrin ADAM8 mediates cell adhesion and shedding of ligands, receptors and extracellular matrix components. Here, we report that ADAM8 is abundantly expressed in breast tumors and derived metastases compared to normal tissue, especially in triple-negative breast cancers (TNBCs). Furthermore, high ADAM8 levels predicted poor patient outcome. Consistently, ADAM8 promoted an aggressive phenotype of TNBC cells in culture. In a mouse orthotopic model, tumors derived from TNBC cells with ADAM8 knockdown failed to grow beyond a palpable size and displayed poor vascularization. Circulating tumor cells and brain metastases were also significantly reduced. Mechanistically, ADAM8 stimulated both angiogenesis through release of VEGF-A and transendothelial cell migration via β1-integrin activation. In vivo, treatment with an anti-ADAM8 antibody from the time of cell inoculation reduced primary tumor burden and metastases. Furthermore, antibody treatment of established tumors profoundly decreased metastases in a resection model. As a non-essential protein under physiological conditions, ADAM8 represents a promising novel target for treatment of TNBCs, which currently lack targeted therapies and frequently progress with fatal dissemination.

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DO - 10.1002/emmm.201303373

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SN - 1757-4684

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EP - 294

JO - EMBO Molecular Medicine

JF - EMBO Molecular Medicine

IS - 2

M1 - N/A

ER -

ADAM8 expression in invasive breast cancer promotes tumor dissemination and metastasis

Abstract

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