Matrix stiffness regulates vascular integrity through focal adhesion kinase activity

Wang, Wenjun; Lollis, Emmanuel Macklin; Bordeleau, François; Reinhart‐King, Cynthia A.

doi:10.1096/fj.201800841r

Cited by 54 publications

(45 citation statements)

References 52 publications

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“…Consistently, another study highlighted the critical role of the heme biosynthetic pathway in supporting endothelial functions (124). In addition, tumor angiogenesis is also promoted by the increased stiffness of the extracellular matrix (ECM) found in TME (125,126). High ECM stiffness is mainly due to increased collagen deposition and increased cross-linking within the tumor stroma.…”

Section: Heme and Tumor Microenvironmentmentioning

confidence: 81%

The Multifaceted Role of Heme in Cancer

et al. 2020

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Heme, an iron-containing porphyrin, is of vital importance for cells due to its involvement in several biological processes, including oxygen transport, energy production and drug metabolism. Besides these vital functions, heme also bears toxic properties and, therefore, the amount of heme inside the cells must be tightly regulated. Similarly, heme intake from dietary sources is strictly controlled to meet body requirements. The multifaceted nature of heme renders it a best candidate molecule exploited/controlled by tumor cells in order to modulate their energetic metabolism, to interact with the microenvironment and to sustain proliferation and survival. The present review summarizes the literature on heme and cancer, emphasizing the importance to consider heme as a prominent player in different aspects of tumor onset and progression.

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Section: Heme and Tumor Microenvironmentmentioning

confidence: 81%

The Multifaceted Role of Heme in Cancer

et al. 2020

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“…Further analyses of the composition and stiffness of the pathological extracellular matrix produced by activated HSteCs in UM micro- and macro-metastases will thus be required. Increasing evidence implicates the extracellular matrix stiffness in cancer progression [32,33,34,35]. Interestingly, patients with a stiffer fibrotic liver have higher metastatic incidence and lower survival rate [34].…”

Section: Discussionmentioning

confidence: 99%

Synergic Interactions Between Hepatic Stellate Cells and Uveal Melanoma in Metastatic Growth

Piquet

Dewit

Schoonjans

et al. 2019

Cancers

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Uveal melanoma (UM) is a malignant intraocular tumor that spreads to the liver in half of the cases. Since hepatic cells could play a role in the therapeutic resistance of metastatic UM, the purpose of our study was to investigate the pro-invasive role of hepatic stellate cells (HSteCs) in metastatic UM at the micro- and macro-metastatic stages. We first performed an immunostaining with the alpha-smooth muscle actin (αSMA) to localize activated HSteCs in UM liver macro-metastases from four patients. Their accumulation of collagen was assessed with Masson’s Trichrome stain. Next, we inoculated metastatic UM cells alone or with human HSteCs in triple-immunodeficient mice, in order to determine if HSteCs are recruited as early as the micro-metastatic stage. The growth of metastatic foci was imaged in the liver by ex vivo fluorescence imaging. Histological analyses were performed with Masson’s Trichrome and Picrosirius Red stains, and antibodies against Melan-A and αSMA. The collagen content was measured in xenografts by quantitative polarization microscopy. In patient hepatectomy samples, activated HSteCs and their pathological matrix were localized surrounding the malignant lesions. In the mouse xenograft model, the number of hepatic metastases was increased when human HSteCs were co-inoculated. Histological analyses revealed a significant recruitment of HSteCs near the micro/macrolesions, and an increase in fibrillar collagen production. Our results show that HSteCs can provide a permissive microenvironment and might increase the therapeutic resistance of metastatic UM.

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“…For example, stiffened ECM has been correlated with increased endothelial permeability which potentially promotes tumor cell intravasation. 46,47 Although tumor cells secrete pro-angiogenic factors influencing the vascular phenotype, vascular cells actively regulate invasion. 48,49 Thus, co-culture models representing the complex interactions between cancer cells, endothelium, and surrounding stroma are necessary to characterize intravasation.…”

Section: Step 2: Angiogenesis and Intravasationmentioning

confidence: 99%

Engineered models to parse apart the metastatic cascade

et al. 2019

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While considerable progress has been made in studying genetic and cellular aspects of metastasis with in vitro cell culture and in vivo animal models, the driving mechanisms of each step of metastasis are still relatively unclear due to their complexity. Moreover, little progress has been made in understanding how cellular fitness in one step of the metastatic cascade correlates with ability to survive other subsequent steps. Engineered models incorporate tools such as tailored biomaterials and microfabrication to mimic human disease progression, which when coupled with advanced quantification methods permit comparisons to human patient samples and in vivo studies. Here, we review novel tools and techniques that have been recently developed to dissect key features of the metastatic cascade using primary patient samples and highly representative microenvironments for the purposes of advancing personalized medicine and precision oncology. Although improvements are needed to increase tractability and accessibility while faithfully simulating the in vivo microenvironment, these models are powerful experimental platforms for understanding cancer biology, furthering drug screening, and facilitating development of therapeutics.

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Matrix stiffness regulates vascular integrity through focal adhesion kinase activity

Cited by 54 publications

References 52 publications

The Multifaceted Role of Heme in Cancer

The Multifaceted Role of Heme in Cancer

Synergic Interactions Between Hepatic Stellate Cells and Uveal Melanoma in Metastatic Growth

Engineered models to parse apart the metastatic cascade

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