Role of Extracellular Matrix in Development and Cancer Progression

Walker, Cameron; Mojares, Elijah; Hernández, Armando del Río

doi:10.3390/ijms19103028

Cited by 784 publications

(747 citation statements)

References 229 publications

(374 reference statements)

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“…The increased expression for each of the studied ECMs in the presence of lower oxygen could either be accounted for by an absolute increase in new ECM generation or by an enhanced enzymatic functional cascade resulting in enhanced alignment of the ECMs already present in the matrix environment. But overall, the different ECM levels by BCa cells growing within our 3D-O model reflect the importance of these changes with respect to reported literature about how ECMs can promote and maintain BCa tumor health and cancer progression (97).…”

Section: Immune Cell Infiltration Into 3d Matrices Has Been Observedsupporting

confidence: 60%

Bioengineering a novel 3D in-vitro model to recreate physiological oxygen levels and tumor-immune interactions

Bhattacharya

Calar

Evans

et al. 2019

Preprint

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Oxygen deprivation within tumors is one of the most prevalent causes of resilient cancer cell survival and increased immune evasion in breast cancer (BCa). Current in vitro models do not adequately mimic physiological oxygen levels relevant to breast tissue and its tumor-immune interactions. Here, we propose an approach to engineer a three-dimensional (3D) model (named 3D engineered oxygen, 3D-O) that supports growth of BCa cells and generates physio-and pathophysiological oxygen levels. Low oxygen-induced changes within the 3D-O model supported known tumor hypoxia characteristics such as reduced BCa cell proliferation, increased extracellular matrix protein expression, increased extracellular vesicle secretion and enhanced immune surface marker expression on BCa cells. We further demonstrated that low oxygeninduced changes mimicked tumor-immune interactions leading to immune evasion mechanisms. CD8+ T cell infiltration was significantly impaired under pathophysiological oxygen levels andwe were able to establish that hypoxia inhibition re-sensitize BCa cells to cytotoxic CD8+ T cells.Therefore, our novel 3D-O model could serve as a promising platform for the evaluation of immunological events and as a drug-screening platform tool to overcome hypoxia-driven immune evasion.

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Section: Immune Cell Infiltration Into 3d Matrices Has Been Observedsupporting

confidence: 60%

Bioengineering a novel 3D in-vitro model to recreate physiological oxygen levels and tumor-immune interactions

Bhattacharya

Calar

Evans

et al. 2019

Preprint

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“…Many of these genes include various collagens, integrins, and cadherins (Figure 7). Previous research has shown a number of collagens to be important for tumor maintenance, angiogenesis, and metastasis [20]. Collagen IV is the major component of the basement membrane, and is comprised of heterogeneous trimers stemming from six COL4A genes.…”

Section: Resultsmentioning

confidence: 99%

“…Various other proteins including lamanins, integrins, and fibronectin proteins are essential components of the extracellular matrix. The integrity of extracellular matrix, including the basement membrane, have been shown as being important for the early steps of tumor invasion and metastasis [19,20]. Interestingly, a previous report demonstrated a decrease in the number of circulating tumor cells within PyMT E2F1 -/mice, suggesting a disruption to the early steps in the metastatic cascade.…”

Section: Introductionmentioning

confidence: 99%

Metastasis is altered through multiple processes regulated by the E2F1 transcription factor

Swiatnicki

Andrechek

2019

Preprint

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The E2F family of transcription factors is important for many cellular processes, from their canonical role in cell cycle regulation to other roles in angiogenesis and metastasis. Alteration of the Rb/E2F pathway occurs in various forms of cancer, including breast cancer. E2F1 ablation has been shown to decrease metastasis in MMTV-Neu and MMTV-PyMT transgenic mouse models of breast cancer. Here we take a bioinformatic approach to determine the E2F1 regulated genomic alterations involved in the metastatic cascade, in both Neu and PyMT models. Through gene expression analysis, we reveal few transcriptome changes in non-metastatic E2F1 -/tumors relative to transgenic tumor controls. However investigation of these models through whole genome sequencing found numerous differences between the models, including differences in the proposed tumor etiology between E2F1 -/and E2F1 +/+ tumors induced by Neu or PyMT.Investigating mutated genes through gene set analysis also found a significant number of genes mutated in the cell adhesion pathway in E2F1 -/tumors, indicating this may be a route for disruption of metastasis in E2F1 -/tumors. Overall, these findings illustrate the complicated nature of uncovering drivers of the metastatic process.

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“…This is a key aspect, for example, in the evaluation of promising anticancer drugs,1 to determine the toxicity of a new (nano)material,2 or to study cell metastasis in tumoral systems 3. Furthermore, considering that the extracellular environment plays an important role in cell‐to‐cell communication, being also one of the key components of tumor invasion,4,5 methods to incorporate it in cell cultures are essential toward achieving more physiologically relevant tissue models. One such method is based on allowing cells to grow in 3D, e.g., in spheroids, in which cell‐to‐cell interactions are closer to a real in vivo situation 6,7.…”

Section: Introductionmentioning

confidence: 99%

Using SERS Tags to Image the Three‐Dimensional Structure of Complex Cell Models

Aberasturi

Henriksen‐Lacey

Litti

et al. 2020

Adv Funct Materials

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Methods to image complex 3D cell cultures are limited by issues such as fluorophore photobleaching and decomposition, poor excitation light penetration, and lack of complementary techniques to verify the 3D structure. Although it remains insufficiently demonstrated, surface‐enhanced Raman scattering (SERS) imaging is a promising tool for the characterization of biological complex systems. To this aim, a controllable 3D cell culture model which spans nearly 1 cm2 in surface footprint is designed. This structure is composed of fibroblasts containing SERS‐encoded nanoparticles (i.e., SERS tags), arranged in an alternating layered structure. This “sandwich” type structure allows monitoring of the SERS signals in the z‐axis and with mm dimensions in the xy‐axis. Taking advantage of correlative microscopy techniques such as electron microscopy, it is possible to corroborate nanoparticle positioning and distances in z‐depths of up to 150 µm. This study reveals a proof‐of‐concept method for detailed 3D SERS imaging of a complex, dense 3D cell culture model.

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Role of Extracellular Matrix in Development and Cancer Progression

Cited by 784 publications

References 229 publications

Bioengineering a novel 3D in-vitro model to recreate physiological oxygen levels and tumor-immune interactions

Bioengineering a novel 3D in-vitro model to recreate physiological oxygen levels and tumor-immune interactions

Metastasis is altered through multiple processes regulated by the E2F1 transcription factor

Using SERS Tags to Image the Three‐Dimensional Structure of Complex Cell Models

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