3D tumour models: novel in vitro approaches to cancer studies
TLDR
Current 3D in vitro models of cancer are overviewed and strategies employed by researchers to tackle these aspects with special reference to recent promising developments, as well as the current limitations of 2D cultures and in vivo models.Abstract:
3D in vitro models have been used in cancer research as a compromise between 2-dimensional cultures of isolated cancer cells and the manufactured complexity of xenografts of human cancers in immunocompromised animal hosts. 3D models can be tailored to be biomimetic and accurately recapitulate the native in vivo scenario in which they are found. These 3D in vitro models provide an important alternative to both complex in vivo whole organism approaches, and 2D culture with its spatial limitations. Approaches to create more biomimetic 3D models of cancer include, but are not limited to, (i) providing the appropriate matrix components in a 3D configuration found in vivo, (ii) co-culturing cancer cells, endothelial cells and other associated cells in a spatially relevant manner, (iii) monitoring and controlling hypoxia- to mimic levels found in native tumours and (iv) monitoring the release of angiogenic factors by cancer cells in response to hypoxia. This article aims to overview current 3D in vitro models of cancer and review strategies employed by researchers to tackle these aspects with special reference to recent promising developments, as well as the current limitations of 2D cultures and in vivo models. 3D in vitro models provide an important alternative to both complex in vivo whole organism approaches, and 2D culture with its spatial limitations. Here we review current strategies in the field of modelling cancer, with special reference to advances in complex 3D in vitro models.read more
Citations
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References
More filters
Journal ArticleDOI
Scaffolds in tissue engineering bone and cartilage.
TL;DR: Research on the tissue engineering of bone and cartilage from the polymeric scaffold point of view is reviews from a biodegradable and bioresorbable perspective.
Journal ArticleDOI
Hypoxia — a key regulatory factor in tumour growth
TL;DR: Cells undergo a variety of biological responses when placed in hypoxic conditions, including activation of signalling pathways that regulate proliferation, angiogenesis and death, and many elements of the hypoxia-response pathway are good candidates for therapeutic targeting.
Journal ArticleDOI
Tensional homeostasis and the malignant phenotype.
Matthew J. Paszek,Nastaran Zahir,Kandice R. Johnson,Johnathon N. Lakins,Gabriela I. Rozenberg,Amit Gefen,Cynthia A. Reinhart-King,Susan S. Margulies,Micah Dembo,David Boettiger,Daniel A. Hammer,Valerie M. Weaver +11 more
TL;DR: It is found that tumors are rigid because they have a stiff stroma and elevated Rho-dependent cytoskeletal tension that drives focal adhesions, disrupts adherens junctions, perturbs tissue polarity, enhances growth, and hinders lumen formation.
Journal ArticleDOI
Tumour-educated macrophages promote tumour progression and metastasis
TL;DR: Macrophages are educated by the tumour microenvironment, so that they adopt a trophic role that facilitates angiogenesis, matrix breakdown and tumour-cell motility — all of which are elements of the metastatic process.
Journal ArticleDOI
Taking Cell-Matrix Adhesions to the Third Dimension
TL;DR: These distinctive in vivo 3D-matrix adhesions differ in structure, localization, and function from classically described in vitro adhesion, and as such they may be more biologically relevant to living organisms.