Instructing Human Macrophage Polarization by Stiffness and Glycosaminoglycan Functionalization in 3D Collagen Networks
- PMID: 28135049
- DOI: 10.1002/adhm.201600967
Instructing Human Macrophage Polarization by Stiffness and Glycosaminoglycan Functionalization in 3D Collagen Networks
Abstract
Dynamic alterations of composition and mechanics of the extracellular matrix are suggested to modulate cellular behavior including plasticity of macrophages (MPhs) during wound healing. In this study, engineered 3D fibrillar matrices based on naturally occurring biopolymers (collagen I, glycosaminoglycans (GAGs)) are used to mimic matrix stiffening as well as modification by sulfated and nonsulfated GAGs at different stages of wound healing. Human MPhs are found to sensitively respond to these microenvironmental cues in terms of polarization toward proinflammatory or wound healing phenotypes over 6 days in vitro. MPhs exhibit a wound healing phenotype in stiffer matrices as determined by protein and gene expression of relevant cytokines (IL10, IL12, and TNFα). Presence of sulfated and nonsulfated GAGs inhibits this polarization effect. Furthermore, control experiments on 2D matrices stress the relevance of using stiffness-controlled 3D matrices, as MPhs show a reciprocal polarization behavior depending on GAG presence. Hence, the results indicate a strong influence of dimensionality, stiffness, and GAG presence of the biomaterial scaffold on MPh polarization and emphasize the need for matrices closely mimicking the 3D in vivo context with a variable stiffness and GAG composition in in vitro studies.
Keywords: collagen; extracellular matrix; glycosaminoglycan; human macrophages; stiffness.
© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
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