Biomaterial Scaffolds Recruit an Aggressive Population of Metastatic Tumor Cells <i>In Vivo</i>

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

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

Cited by 30 publications

(51 citation statements)

References 56 publications

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“…PCL scaffolds have been employed as a synthetic premetastatic niche (Aguado et al, ; Bushnell et al, ; Rao et al, ), and here, we investigated the ability to deliver lentivirus to achieve sustained transgene expression as outlined in the experimental platform and timeline in Figure . Transgene expression was analyzed after implantation into the fat pad via delivery of FLUC lentivirus and bioluminescence imaging (Figure a).…”

Section: Resultsmentioning

confidence: 99%

“…Second, strategies to probe the premetastatic niche have often employed genetic modifications that impact the entire organism, typically with off-target effects on primary tumor development (Peinado et al, 2011). Biomaterial scaffolds have recently emerged as tools to investigate tumor cell abundance in predefined sites and to alter the local microenvironment without altering the primary tumor cells or host organism (Aguado, Bushnell, Rao, Jeruss, & Shea, 2017;Aguado et al, 2016;Aguado et al, 2018;Aguado et al, 2015;Azarin et al, 2015;Bersani et al, 2014;Bushnell et al, 2019;Ko et al, 2012;J. Lee et al, 2012;Rao et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

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Microporous scaffolds loaded with immunomodulatory lentivirus to study the contribution of immune cell populations to tumor cell recruitment in vivo

Bushnell

Rao

Hartfield

et al. 2019

Biotech & Bioengineering

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Metastases are preceded by stochastic formation of a hospitable microenvironment known as the premetastatic niche, which has been difficult to study. Herein, we employ implantable polycaprolactone scaffolds as an engineered premetastatic niche to independently investigate the role of interleukin‐10 (IL10), CXCL12, and CCL2 in recruiting immune and tumor cells and impacting breast cancer cell phenotype via lentiviral overexpression. Lentivirus delivered from scaffolds in vivo achieved sustained transgene expression for 56 days. IL10 lentiviral expression, but not CXCL12 or CCL2, significantly decreased tumor cell recruitment to scaffolds in vivo. Delivery of CXCL12 enhanced CD45+ immune cell recruitment to scaffolds while delivery of IL10 reduced immune cell recruitment. CCL2 did not alter immune cell recruitment. Tumor cell phenotype was investigated using conditioned media from immunomodulated scaffolds, with CXCL12 microenvironments reducing proliferation, and IL10 microenvironments enhancing proliferation. Migration was enhanced with CCL2 and reduced with IL10‐driven microenvironments. Multiple linear regression identified populations of immune cells associated with tumor cell abundance. CD45+ immune and CD8+ T cells were associated with reduced tumor cell abundance, while CD11b+Gr1+ neutrophils and CD4+ T cells were associated with enhanced tumor cell abundance. Collectively, biomaterial scaffolds provide a tool to probe the formation and function of the premetastatic niche.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Microporous scaffolds loaded with immunomodulatory lentivirus to study the contribution of immune cell populations to tumor cell recruitment in vivo

Bushnell

Rao

Hartfield

et al. 2019

Biotech & Bioengineering

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“…Our attempts to isolate and expand 4T1 cells directly from diseased lung and scaffold tissue for validation of these results in vivo were unsuccessful due to technical limitations. However, we were able to isolate cancer cells from diseased lung and scaffold using MDA-MB-231BR human breast cancer cells 21 . Both the diseased lung and scaffold isolated cancer cell lines aligned with the lung-tropic gene expression signature, but not the bone-tropic signature, demonstrating the lung-like recruitment mechanism towards the cargo-free scaffold implants in vivo (Fig.…”

Section: Resultsmentioning

confidence: 99%

Cargo-free scaffold implant recruits metastatic cancer cells via lung-mimicking myeloid cell S100A8/A9 axis

Wang

Bushnell

et al. 2019

Preprint

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14Pre-metastatic niches in distant tissue facilitate metastasis from the primary tumor. Cargo-free 15 porous polymer scaffolds implanted in tumor-bearing mice act as synthetic metastatic niches 16 recruiting metastasizing cancer cells. Herein, we investigated the mechanisms by which these 17 implants attract cancer cells from circulation. Scaffolds attract cancer cells in part via 18 S100A8/A9 secreted by Gr1 + myeloid cells in a mechanism that mimics lung metastasis. Further, 19 cancer cells attracted to the scaffold have a lung-tropic gene expression signature regardless of 20 their tissue of origin. The scaffold implant reduces metastasis to the lung suggesting otherwise 21 lung-tropic cancer cells are diverted to the scaffold. The suppression of metastatic spread by the 22 scaffold suggests this mechanism may be exploited for novel therapies, and may broadly 23 influence the design of scaffold-based drug delivery system for anti-cancer therapy. 24 25 30 metastasizing cancer cells before they are detectable in native organs 5, 6 , show potential as a 31 therapeutic by reducing metastatic tumor burden in native organs 6 , and can be engineered and 32 humanized to uniquely study human pathways in native pre-metastatic niche progression 6-9 . 33Previous work has shown that the detection of cancer cells at the synthetic pre-metastatic niche 34 occurs soon after the arrival of myeloid cells 5, 6 , and identifying the mechanism governing 35 2 recruitment would improve their application as models 8, 9 for study of native pre-metastatic 36 niches and as local delivery systems for immunotherapy 10, 11 . 37 Here, we dissected the contribution of different cell subsets at the synthetic pre-metastatic 38 niche-a cargo-free microporous poly(ε-caprolactone) (PCL) scaffold implant-to cancer cell 39 recruitment. Further, we investigated the common myeloid cell secreted S100A8/A9 recruitment 40 axis between the synthetic pre-metastatic niche and pre-metastatic lung, which may divert 41 metastasis of lung-tropic cancer cells to the implant. These studies will determine the extent to 42 which cargo-free synthetic pre-metastatic niches mimic the organotropic metastasis observed in 43 native tissues where cancer cells originating in a given organ will preferentially metastasize to 44 metastatic niches in a particular organ 12, 13 . 45 Results and discussion 46 Diseased conditioning enhances breast cancer cell recruitment from the blood to scaffold 47 65 cells from diseased and healthy scaffolds and lungs, with quantification of 4T1 cell 66 transmigration towards the conditioned media in an in vitro extravasation model (Fig. 1C). The 67 diseased conditioned media of both the scaffold and lung stimulated more 4T1 cells 68 transmigration than the conditioned media produced from healthy tissue (Fig. 1C). 69Expanded granulocytic myeloid cells at the diseased scaffold implant secrete S100A8/A9 to 70 recruit breast cancer cells. We next sought to determine which cell populations at the scaffold 71 secreted the soluble factor...

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“…These platforms robustly recruit tumor cells across several mouse models of metastasis [1]. Tumor cells recruited to the synthetic niche are representative of metastasis to other organs, and reflect an aggressive population; similar in metastatic ability, behavior in vitro, and transcriptome to breast cancer cells that spontaneously metastasized to the lung [2]. These findings suggest that tumor cells recruited to a synthetic niche could provide a surrogate for tumor cells in occult or relatively inaccessible locations.…”

mentioning

confidence: 90%

“…Additionally, the synthetic niche platform has potential benefits beyond enumeration of circulating tumor cells (CTCs) or disseminated tumor cells (DTCs), which has been performed as part of clinical research for more than two decades yet has not been routinely applied in clinical decision making. The presence of an easily accessible metastatic site would facilitate analysis of cells proven to be capable of metastasis [2], which distinguish them from the majority of CTCs and DTCs. Additionally, the analysis of CTCs and DTCs does not account for the microenvironment that tumor cells occupy and co-opt during the metastatic cascade.…”

Section: Research Perspectivementioning

confidence: 99%

Precision health for breast cancer metastasis: biomaterial scaffolds as an engineered metastatic niche to define, study, and monitor metastatic progression

et al. 2019

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Metastasis represents the greatest challenge to treatment of cancer patients. Biomaterial scaffolds that recruit tumor cells to a defined site in vivo are an emerging platform for the diagnosis, treatment, and study of metastasis. Recruitment of immune cells and metastatic tumor cells to a defined location provides a precision health platform to assess current clinical cancer biomarkers in a metastatic setting, and to define the next generation of biomarkers. These platforms represent an opportunity to create a molecular staging of metastasis that could aid in both the early diagnosis and treatment of metastasis.

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Biomaterial Scaffolds Recruit an Aggressive Population of Metastatic Tumor Cells In Vivo

Cited by 30 publications

References 56 publications

Microporous scaffolds loaded with immunomodulatory lentivirus to study the contribution of immune cell populations to tumor cell recruitment in vivo

Microporous scaffolds loaded with immunomodulatory lentivirus to study the contribution of immune cell populations to tumor cell recruitment in vivo

Cargo-free scaffold implant recruits metastatic cancer cells via lung-mimicking myeloid cell S100A8/A9 axis

Precision health for breast cancer metastasis: biomaterial scaffolds as an engineered metastatic niche to define, study, and monitor metastatic progression

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