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Crosstalk with lung epithelial cells regulates Sfrp2-mediated latency in breast cancer dissemination

Crosstalk with lung epithelial cells regulates Sfrp2-mediated latency in breast cancer dissemination
Crosstalk with lung epithelial cells regulates Sfrp2-mediated latency in breast cancer dissemination
The process of metastasis is complex1. In breast cancer, there are frequently long time intervals between cells leaving the primary tumour and growth of overt metastases2,3. Reasons for disease indolence and subsequent transition back to aggressive growth include interactions with myeloid and fibroblastic cells in the tumour microenvironment and ongoing immune surveillance4-6. However, the signals that cause actively growing cells to enter an indolent state, thereby enabling them to survive for extended periods of time, are not well understood. Here we reveal how the behaviour of indolent breast cancer cells in the lung is determined by their interactions with alveolar epithelial cells, in particular alveolar type 1 cells. This promotes the formation of fibronectin fibrils by indolent cells that drive integrin-dependent pro-survival signals. Combined in vivo RNA sequencing and drop-out screening identified secreted frizzled-related protein 2 (SFRP2) as a key mediator of this interaction. Sfrp2 is induced in breast cancer cells by signals from lung epithelial cells and promotes fibronectin fibril formation and survival, whereas blockade of Sfrp2 expression reduces the burden of indolent disease.
1465-7392
289-296
Montagner, Marco
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Bhome, Rahul
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Hooper, Steven
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Chakravarty, Probir
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Qin, Xiao
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Sufi, Jahangir
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Bhargava, Ajay
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Ratcliffe, Colin D.H.
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Naito, Yutaka
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Pocaterra, Arianna
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Tape, Christopher J.
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Sahai, Erik
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Montagner, Marco
fc2b4ba1-447d-46d5-9ef4-3c8d722ec070
Bhome, Rahul
d7b1e0d3-5925-460a-871d-5f52f69c649b
Hooper, Steven
c202fa5a-c846-41dd-91f9-4607304b8594
Chakravarty, Probir
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Qin, Xiao
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Sufi, Jahangir
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Bhargava, Ajay
6618c395-6b92-4155-bded-a5eba6b5b94b
Ratcliffe, Colin D.H.
a5d48fae-ffd9-4534-b540-16cc3ab78163
Naito, Yutaka
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Pocaterra, Arianna
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Tape, Christopher J.
051c4bc5-9337-430a-99ac-a919130a251c
Sahai, Erik
c50ade2b-9291-44ff-bc5a-7dd97c05bc7e

Montagner, Marco, Bhome, Rahul, Hooper, Steven, Chakravarty, Probir, Qin, Xiao, Sufi, Jahangir, Bhargava, Ajay, Ratcliffe, Colin D.H., Naito, Yutaka, Pocaterra, Arianna, Tape, Christopher J. and Sahai, Erik (2020) Crosstalk with lung epithelial cells regulates Sfrp2-mediated latency in breast cancer dissemination. Nature Cell Biology, 22 (3), 289-296. (doi:10.1038/s41556-020-0474-3).

Record type: Letter

Abstract

The process of metastasis is complex1. In breast cancer, there are frequently long time intervals between cells leaving the primary tumour and growth of overt metastases2,3. Reasons for disease indolence and subsequent transition back to aggressive growth include interactions with myeloid and fibroblastic cells in the tumour microenvironment and ongoing immune surveillance4-6. However, the signals that cause actively growing cells to enter an indolent state, thereby enabling them to survive for extended periods of time, are not well understood. Here we reveal how the behaviour of indolent breast cancer cells in the lung is determined by their interactions with alveolar epithelial cells, in particular alveolar type 1 cells. This promotes the formation of fibronectin fibrils by indolent cells that drive integrin-dependent pro-survival signals. Combined in vivo RNA sequencing and drop-out screening identified secreted frizzled-related protein 2 (SFRP2) as a key mediator of this interaction. Sfrp2 is induced in breast cancer cells by signals from lung epithelial cells and promotes fibronectin fibril formation and survival, whereas blockade of Sfrp2 expression reduces the burden of indolent disease.

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Revised manuscript submitted Sep2019 (002) - Accepted Manuscript
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Accepted/In Press date: 20 January 2020
e-pub ahead of print date: 24 February 2020
Published date: 1 March 2020
Additional Information: Funding Information: We thank J. Downward, D. Barkan and R. Gomis for gifts of cell lines; I. Malanchi, S. Piccolo, S. Dupont and G. Martello for thoughtful discussion and reagents; Flow Cytometry, Experimental Histopathology, Bioinformatics and Biostatistics (in particular S. Horswell), Biological Research, Cell Services and Advanced Sequencing facilities at the Crick Institute for exceptional scientific and technical support throughout the project; and C. Mein for support and advice with RNA sequencing. E.S. and M.M. were funded by the Francis Crick Institute, which receives its core funding from Cancer Research UK (FC001144), the UK Medical Research Council (FC001144) and the Wellcome Trust (FC001144). M.M. also received funding from Marie Curie Actions—Intra-European Fellowships no. 625496 and BIRD Seed grant from Department of Molecular Medicine (University of Padua). C.J.T. and J.S. are supported by a Cancer Research UK Career Development Fellowship awarded to C.J.T. Publisher Copyright: © 2020, The Author(s), under exclusive licence to Springer Nature Limited.

Identifiers

Local EPrints ID: 438423
URI: http://eprints.soton.ac.uk/id/eprint/438423
DOI: doi:10.1038/s41556-020-0474-3
ISSN: 1465-7392
PURE UUID: 8381d424-4905-4a30-bfeb-783f2c0fdf03
ORCID for Rahul Bhome: ORCID iD orcid.org/0000-0001-7143-4939

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Date deposited: 10 Mar 2020 17:30
Last modified: 17 Mar 2024 05:22

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Contributors

Author: Marco Montagner
Author: Rahul Bhome ORCID iD
Author: Steven Hooper
Author: Probir Chakravarty
Author: Xiao Qin
Author: Jahangir Sufi
Author: Ajay Bhargava
Author: Colin D.H. Ratcliffe
Author: Yutaka Naito
Author: Arianna Pocaterra
Author: Christopher J. Tape
Author: Erik Sahai

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