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Beyond Tissue Stiffness and Bioadhesivity: Advanced Biomaterials to Model Tumor Microenvironments and Drug Resistance  Ankur Singh, Ilana Brito, Jan Lammerding 

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Presentation on theme: "Beyond Tissue Stiffness and Bioadhesivity: Advanced Biomaterials to Model Tumor Microenvironments and Drug Resistance  Ankur Singh, Ilana Brito, Jan Lammerding "— Presentation transcript:

1 Beyond Tissue Stiffness and Bioadhesivity: Advanced Biomaterials to Model Tumor Microenvironments and Drug Resistance  Ankur Singh, Ilana Brito, Jan Lammerding  Trends in Cancer  Volume 4, Issue 4, Pages (April 2018) DOI: /j.trecan Copyright © 2018 Elsevier Inc. Terms and Conditions

2 Figure 1 Key Figure: Ex Vivo Cancer Tissues with Multidimensional Control of Biophysical and Biochemical Properties The schematic depicts the integration of new strategies into existing tumor tissue models. (A) Time-dependent, controlled, reversible exchange of biochemical ligands. (B) Stress relaxation, which models the viscoelastic behavior of tissues compared with current, covalently crosslinked matrices. Simple covalently crosslinked hydrogels (black-lined network) with stress relaxation can be designed by including ionic bridges (red lines) and chemical spacers (e.g., polyethylene glycol; blue lines). (C) 3D niche porosity to model the nuclear deformability of cancer cells. (D,E) Integrating the cell–cell and autocrine/paracrine effect of the immune system and the gut microbiome. Trends in Cancer 2018 4, DOI: ( /j.trecan ) Copyright © 2018 Elsevier Inc. Terms and Conditions

3 Figure 2 Ex Vivo Cancer Models with Possible Microbiome–Tumor Interactions. The figure shows an example of a three-layer ex vivo model. (1) Alterations in gut microbiota may result in increased bacterial translocation. (2) Increased abundance of microorganism-associated molecular patterns (MAMPs) directly influences tumor cells through local or distant mediators. (3) MAMPs stimulate Toll-like receptors on immune and other niche cells, leading to an increased tumor-supportive milieu of cytokines (e.g., interleukins) and growth factors. (4) The microbiota mediates tumor suppression through the generation of short-chain fatty acids and biological activation of cancer-preventing phytochemicals. (5) Bacterial genotoxins, after being delivered to the nuclei of host cells, actively induce DNA damage in organs that are in direct contact with the microbiome, such as the gastrointestinal tract. Other genotoxic components include reactive oxygen species, reactive nitrogen species released from inflammatory cells, and hydrogen sulfide from the microbiota. (6) Gut-mediated metabolites may result in: (i) activation of genotoxins such as acetaldehyde; (ii) activation of the metabolism of hormones; or (iii) alterations in the metabolism of bile acids. Trends in Cancer 2018 4, DOI: ( /j.trecan ) Copyright © 2018 Elsevier Inc. Terms and Conditions

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