Biomaterial scaffolds recruit an aggressive population of metastatic tumor cells in vivo

Grace G. Bushnell; Tejaswini P. Hardas; Rachel M. Hartfield; Yining Zhang; Robert S. Oakes; Scott Ronquist; Haiming Chen; Indika Rajapakse; Max S. Wicha; Jacqueline S. Jeruss; Lonnie D. Shea

doi:10.1158/0008-5472.CAN-18-2502

Biomaterial scaffolds recruit an aggressive population of metastatic tumor cells in vivo

Grace G. Bushnell
, Tejaswini P. Hardas
, Rachel M. Hartfield
, Yining Zhang
, Robert S. Oakes
, Scott Ronquist
, Haiming Chen
, Indika Rajapakse
, Max S. Wicha
, Jacqueline S. Jeruss
, Lonnie D. Shea

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

27 Scopus citations

Abstract

For most cancers, metastasis is the point at which clinical treatment shifts from curative intent to extending survival. Biomaterial implants acting as a synthetic premetastatic niche recruit metastatic cancer cells and provide a survival advantage, and their use as a diagnostic platform requires assessing their relevance to disease progression. Here, we showed that scaffold-captured tumor cells (SCAF) were 30 times more metastatic to the lung than primary tumor (PT) cells, similar to cells derived from lung micrometastases (LUNG). SCAF cells were more aggressive in vitro, demonstrated higher levels of migration, invasion, and mammosphere formation, and had a greater proportion of cancer stem cells than PT. SCAF cells were highly enriched for gene expression signatures associated with metastasis and had associated genomic structural changes, including globally enhanced entropy. Collectively, our findings demonstrate that SCAF cells are distinct from PT and more closely resemble LUNG, indicating that tumor cells retrieved from scaffolds are reflective of cells at metastatic sites. Significance: These findings suggest that metastatic tumor cells captured by a biomaterial scaffold may serve as a diagnostic for molecular staging of metastasis.

Original language	English (US)
Pages (from-to)	2042-2053
Number of pages	12
Journal	Cancer Research
Volume	79
Issue number	8
DOIs	https://doi.org/10.1158/0008-5472.CAN-18-2502
State	Published - Apr 15 2019
Externally published	Yes

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Publisher Copyright:
2019 American Association for Cancer Research.

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title = "Biomaterial scaffolds recruit an aggressive population of metastatic tumor cells in vivo",

abstract = "For most cancers, metastasis is the point at which clinical treatment shifts from curative intent to extending survival. Biomaterial implants acting as a synthetic premetastatic niche recruit metastatic cancer cells and provide a survival advantage, and their use as a diagnostic platform requires assessing their relevance to disease progression. Here, we showed that scaffold-captured tumor cells (SCAF) were 30 times more metastatic to the lung than primary tumor (PT) cells, similar to cells derived from lung micrometastases (LUNG). SCAF cells were more aggressive in vitro, demonstrated higher levels of migration, invasion, and mammosphere formation, and had a greater proportion of cancer stem cells than PT. SCAF cells were highly enriched for gene expression signatures associated with metastasis and had associated genomic structural changes, including globally enhanced entropy. Collectively, our findings demonstrate that SCAF cells are distinct from PT and more closely resemble LUNG, indicating that tumor cells retrieved from scaffolds are reflective of cells at metastatic sites. Significance: These findings suggest that metastatic tumor cells captured by a biomaterial scaffold may serve as a diagnostic for molecular staging of metastasis.",

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note = "Publisher Copyright: 2019 American Association for Cancer Research.",

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doi = "10.1158/0008-5472.CAN-18-2502",

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T1 - Biomaterial scaffolds recruit an aggressive population of metastatic tumor cells in vivo

AU - Bushnell, Grace G.

AU - Hardas, Tejaswini P.

AU - Hartfield, Rachel M.

AU - Zhang, Yining

AU - Oakes, Robert S.

AU - Ronquist, Scott

AU - Chen, Haiming

AU - Rajapakse, Indika

AU - Wicha, Max S.

AU - Jeruss, Jacqueline S.

AU - Shea, Lonnie D.

PY - 2019/4/15

Y1 - 2019/4/15

N2 - For most cancers, metastasis is the point at which clinical treatment shifts from curative intent to extending survival. Biomaterial implants acting as a synthetic premetastatic niche recruit metastatic cancer cells and provide a survival advantage, and their use as a diagnostic platform requires assessing their relevance to disease progression. Here, we showed that scaffold-captured tumor cells (SCAF) were 30 times more metastatic to the lung than primary tumor (PT) cells, similar to cells derived from lung micrometastases (LUNG). SCAF cells were more aggressive in vitro, demonstrated higher levels of migration, invasion, and mammosphere formation, and had a greater proportion of cancer stem cells than PT. SCAF cells were highly enriched for gene expression signatures associated with metastasis and had associated genomic structural changes, including globally enhanced entropy. Collectively, our findings demonstrate that SCAF cells are distinct from PT and more closely resemble LUNG, indicating that tumor cells retrieved from scaffolds are reflective of cells at metastatic sites. Significance: These findings suggest that metastatic tumor cells captured by a biomaterial scaffold may serve as a diagnostic for molecular staging of metastasis.

AB - For most cancers, metastasis is the point at which clinical treatment shifts from curative intent to extending survival. Biomaterial implants acting as a synthetic premetastatic niche recruit metastatic cancer cells and provide a survival advantage, and their use as a diagnostic platform requires assessing their relevance to disease progression. Here, we showed that scaffold-captured tumor cells (SCAF) were 30 times more metastatic to the lung than primary tumor (PT) cells, similar to cells derived from lung micrometastases (LUNG). SCAF cells were more aggressive in vitro, demonstrated higher levels of migration, invasion, and mammosphere formation, and had a greater proportion of cancer stem cells than PT. SCAF cells were highly enriched for gene expression signatures associated with metastasis and had associated genomic structural changes, including globally enhanced entropy. Collectively, our findings demonstrate that SCAF cells are distinct from PT and more closely resemble LUNG, indicating that tumor cells retrieved from scaffolds are reflective of cells at metastatic sites. Significance: These findings suggest that metastatic tumor cells captured by a biomaterial scaffold may serve as a diagnostic for molecular staging of metastasis.

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JO - Cancer Research

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ER -

Biomaterial scaffolds recruit an aggressive population of metastatic tumor cells in vivo

Abstract

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