2018
DOI: 10.1111/iep.12269
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Charting the unexplored extracellular matrix in cancer

Abstract: The extracellular matrix (ECM) is present in all solid tissues and considered a master regulator of cell behaviour and phenotype. The importance of maintaining the correct biochemical and biophysical properties of the ECM, and the subsequent regulation of cell and tissue homeostasis, is illustrated by the simple fact that the ECM is highly dysregulated in many different types of disease, especially cancer. The loss of tissue ECM homeostasis and integrity is seen as one of the hallmarks of cancer and typically … Show more

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Cited by 81 publications
(62 citation statements)
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“…The interplay between cancer cells, tissue resident cells and the surrounding extracellular matrix (ECM) strongly affect cancer tumorigenesis and progression. Specifically, the loss of integrity and homeostasis in tissue ECM is a crucial cancer hallmark, with a defined "matrisome" signature for both normal and diseased tissue demonstrating how microenvironment components are deregulated during a pathologic event (Naba et al, 2012(Naba et al, , 2014a(Naba et al, ,b, 2017Filipe et al, 2018;Pearce et al, 2018). 3D models aim to replicate tissue mechanical properties, providing optimal bioactive structures for cell attachment and proliferation to preserve native cellular phenotypes.…”
Section: Ovarian Cancer Cell Culture and Proliferationmentioning
confidence: 99%
“…The interplay between cancer cells, tissue resident cells and the surrounding extracellular matrix (ECM) strongly affect cancer tumorigenesis and progression. Specifically, the loss of integrity and homeostasis in tissue ECM is a crucial cancer hallmark, with a defined "matrisome" signature for both normal and diseased tissue demonstrating how microenvironment components are deregulated during a pathologic event (Naba et al, 2012(Naba et al, , 2014a(Naba et al, ,b, 2017Filipe et al, 2018;Pearce et al, 2018). 3D models aim to replicate tissue mechanical properties, providing optimal bioactive structures for cell attachment and proliferation to preserve native cellular phenotypes.…”
Section: Ovarian Cancer Cell Culture and Proliferationmentioning
confidence: 99%
“…Because the majority of structural ECM proteins exhibit a remarkable longevity in vivo , often measured in weeks and months and even years 8 , as opposed to hours for intracellular proteins, we argue that the tumour-specific blend of ECM molecules records a history of tumour evolution 132 . As such, it has the potential to allow us to better understand how a specific tumour has emerged.…”
Section: Getting Things Moving: Cancer Cell Migration and Invasionmentioning
confidence: 93%
“…Because collagen I represents the major interstitial ECM component of most tissues, including many solid tumours, the Mini‐Organo offers a physiologically relevant and powerful approach to assessing potential stromal cell targeting in the cancer context. Targeting ECM remodelling as an approach to treat solid tumours is an exciting emerging concept that is showing promise in several settings …”
Section: Practical Applications Of the Mini‐organo In Cancer Biologymentioning
confidence: 99%
“…Mammalian tissues are highly complex microenvironments where a close interplay exists between the cellular and acellular compartments. [1][2][3][4] This complex and reciprocal interaction is technically challenging to reproduce in vitro as both healthy and diseased tissues co-evolve over time. Furthermore, in vivo study of these complex tissue environments is time-consuming and labour intensive, and experimental manipulation is typically limited.…”
Section: Background and Rationalementioning
confidence: 99%
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