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      Soft extracellular matrix enhances inflammatory activation of mesenchymal stromal cells to induce monocyte production and trafficking

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          Abstract

          Soft extracellular matrix boosts the activation of MSCs by TNFα to generate and recruit monocytes in a paracrine manner.

          Abstract

          Mesenchymal stromal cells (MSCs) modulate immune cells to ameliorate multiple inflammatory pathologies. Biophysical signals that regulate this process are poorly defined. By engineering hydrogels with tunable biophysical parameters relevant to bone marrow where MSCs naturally reside, we show that soft extracellular matrix maximizes the ability of MSCs to produce paracrine factors that have been implicated in monocyte production and chemotaxis upon inflammatory stimulation by tumor necrosis factor–α (TNFα). Soft matrix increases clustering of TNF receptors, thereby enhancing NF-κB activation and downstream gene expression. Actin polymerization and lipid rafts, but not myosin-II contractility, regulate mechanosensitive activation of MSCs by TNFα. We functionally demonstrate that human MSCs primed with TNFα in soft matrix enhance production of human monocytes in marrow of xenografted mice and increase trafficking of monocytes via CCL2. The results suggest the importance of biophysical signaling in tuning inflammatory activation of stromal cells to control the innate immune system.

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          Matrix elasticity directs stem cell lineage specification.

          Adam Engler, Shamik Sen, H. Sweeney (2006)
          Microenvironments appear important in stem cell lineage specification but can be difficult to adequately characterize or control with soft tissues. Naive mesenchymal stem cells (MSCs) are shown here to specify lineage and commit to phenotypes with extreme sensitivity to tissue-level elasticity. Soft matrices that mimic brain are neurogenic, stiffer matrices that mimic muscle are myogenic, and comparatively rigid matrices that mimic collagenous bone prove osteogenic. During the initial week in culture, reprogramming of these lineages is possible with addition of soluble induction factors, but after several weeks in culture, the cells commit to the lineage specified by matrix elasticity, consistent with the elasticity-insensitive commitment of differentiated cell types. Inhibition of nonmuscle myosin II blocks all elasticity-directed lineage specification-without strongly perturbing many other aspects of cell function and shape. The results have significant implications for understanding physical effects of the in vivo microenvironment and also for therapeutic uses of stem cells.
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            Exploring the full spectrum of macrophage activation.

            David Mosser, Justin Edwards (2008)
            Macrophages display remarkable plasticity and can change their physiology in response to environmental cues. These changes can give rise to different populations of cells with distinct functions. In this Review we suggest a new grouping of macrophage populations based on three different homeostatic activities - host defence, wound healing and immune regulation. We propose that similarly to primary colours, these three basic macrophage populations can blend into various other 'shades' of activation. We characterize each population and provide examples of macrophages from specific disease states that have the characteristics of one or more of these populations.
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              Hydrogels with tunable stress relaxation regulate stem cell fate and activity

              Ovijit Chaudhuri, Luo Gu, Darinka Klumpers (2015)
              Natural extracellular matrices (ECMs) are viscoelastic and exhibit stress relaxation. However, hydrogels used as synthetic ECMs for three-dimensional (3D) culture are typically elastic. Here, we report a materials approach to tune the rate of stress relaxation of hydrogels for 3D culture, independently of the hydrogel’s initial elastic modulus, cell-adhesion-ligand density and degradation. We find that cell spreading, proliferation, and osteogenic differentiation of mesenchymal stem cells (MSCs) are all enhanced in cells cultured in gels with faster relaxation. Strikingly, MSCs form a mineralized, collagen-1-rich matrix similar to bone in rapidly relaxing hydrogels with an initial elastic modulus of 17 kPa. We also show that the effects of stress relaxation are mediated by adhesion-ligand binding, actomyosin contractility and mechanical clustering of adhesion ligands. Our findings highlight stress relaxation as a key characteristic of cell-ECM interactions and as an important design parameter of biomaterials for cell culture.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Sci Adv
                Journal ID (iso-abbrev): Sci Adv
                Journal ID (publisher-id): SciAdv
                Journal ID (hwp): advances
                Title: Science Advances
                Publisher: American Association for the Advancement of Science
                ISSN (Electronic): 2375-2548
                Publication date Collection: April 2020
                Publication date (Electronic): 08 April 2020
                Volume: 6
                Issue: 15
                Electronic Location Identifier: eaaw0158
                Affiliations
                [1 ]Department of Pharmacology and Department of Bioengineering, University of Illinois at Chicago College of Medicine, Chicago, IL, USA.
                [2 ]School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, USA.
                Author notes
                [*]

                Present address: Stanford University School of Medicine, Medical Scientist Training Program, Stanford, CA, USA.

                []Corresponding author. Email: mooneyd@ 123456seas.harvard.edu (D.J.M.); shinjw@ 123456uic.edu (J.-W.S.)
                Author information
                http://orcid.org/0000-0002-7518-6474
                http://orcid.org/0000-0002-2585-4817
                http://orcid.org/0000-0001-5698-5150
                http://orcid.org/0000-0001-6299-1194
                http://orcid.org/0000-0003-4823-6373
                Article
                Publisher ID: aaw0158
                DOI: 10.1126/sciadv.aaw0158
                PMC ID: 7141831
                PubMed ID: 32284989
                SO-VID: 891996d5-fedc-4a1a-adb8-d2299580c3a4
                Copyright © Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution-NonCommercial license, which permits use, distribution, and reproduction in any medium, so long as the resultant use is not for commercial advantage and provided the original work is properly cited.

                History
                Date received : 12 November 2018
                Date accepted : 14 January 2020
                Funding
                Funded by: doi http://dx.doi.org/10.13039/100000050, National Heart, Lung, and Blood Institute;
                Award ID: R00HL125884
                Funded by: doi http://dx.doi.org/10.13039/100000050, National Heart, Lung, and Blood Institute;
                Award ID: R01HL141255
                Funded by: doi http://dx.doi.org/10.13039/100000070, National Institute of Biomedical Imaging and Bioengineering;
                Award ID: RO1EB023287
                Categories
                Subject: Research Article
                Subject: Research Articles
                Subject: SciAdv r-articles
                Subject: Biophysics
                Subject: Cell Biology
                Subject: Cell Biology
                Custom metadata
                Copyeditor Adrienne Del Mundo

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