Manipulating immune activity of macrophages: a materials and mechanics perspective
- PMID: 39155172
- PMCID: PMC11717646
- DOI: 10.1016/j.tibtech.2024.07.009
Manipulating immune activity of macrophages: a materials and mechanics perspective
Abstract
Macrophage immune cells exist on a plastic spectrum of phenotypes governed by their physical and biochemical environment. Controlling macrophage function to facilitate immunological regeneration or fighting pathology has emerged as a therapeutic possibility. The rate-limiting step in translating macrophage immunomodulation therapies has been the absence of fundamental knowledge of how physics and biochemistry in the macrophage microenvironment converge to inform phenotype. In this review we explore recent trends in bioengineered model systems that integrate physical and biochemical variables applied to macrophage mechanosensing and plasticity. We focus on how tuning of mechanical forces and biomaterial composition orchestrate macrophage function in physiological and pathological contexts. Ultimately, a broader understanding of stimuli-responsiveness in macrophages leads to informed design for future modulatory therapies.
Keywords: engineering approaches; in vitro models; macrophages; mechanosensing; microenvironment.
Copyright © 2024 Elsevier Ltd. All rights reserved.
Conflict of interest statement
Declaration of interests E.M. and A.J. are named inventors on a patent application related to some of the work presented in this review. S.A.R. and A.J.C. declare that they have no competing interests.
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