Mechanosensing regulates tissue repair program in macrophages

Matthew L. Meizlish; Yoshitaka Kimura; Scott D. Pope; Rita Matta; Catherine Kim; Naomi H. Philip; Linde Meyaard; Anjelica Gonzalez; Ruslan Medzhitov

doi:10.1126/sciadv.adk6906

Mechanosensing regulates tissue repair program in macrophages

Matthew L. Meizlish, Yoshitaka Kimura, Scott D. Pope, Rita Matta, Catherine Kim, Naomi H. Philip, Linde Meyaard, Anjelica Gonzalez, Ruslan Medzhitov^*

^*Corresponding author for this work

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Abstract

Tissue-resident macrophages play important roles in tissue homeostasis and repair. However, how macrophages monitor and maintain tissue integrity is not well understood. The extracellular matrix (ECM) is a key structural and organizational component of all tissues. Here, we find that macrophages sense the mechanical properties of the ECM to regulate a specific tissue repair program. We show that macrophage mechanosensing is mediated by cytoskeletal remodeling and can be performed in three-dimensional environments through a noncanonical, integrin-independent mechanism analogous to amoeboid migration. We find that these cytoskeletal dynamics also integrate biochemical signaling by colony-stimulating factor 1 and ultimately regulate chromatin accessibility to control the mechanosensitive gene expression program. This study identifies an “amoeboid” mode of ECM mechanosensing through which macrophages may regulate tissue repair and fibrosis.

Original language	English
Article number	eadk6906
Number of pages	17
Journal	Science advances
Volume	10
Issue number	11
DOIs	https://doi.org/10.1126/sciadv.adk6906
Publication status	Published - Mar 2024

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title = "Mechanosensing regulates tissue repair program in macrophages",

abstract = "Tissue-resident macrophages play important roles in tissue homeostasis and repair. However, how macrophages monitor and maintain tissue integrity is not well understood. The extracellular matrix (ECM) is a key structural and organizational component of all tissues. Here, we find that macrophages sense the mechanical properties of the ECM to regulate a specific tissue repair program. We show that macrophage mechanosensing is mediated by cytoskeletal remodeling and can be performed in three-dimensional environments through a noncanonical, integrin-independent mechanism analogous to amoeboid migration. We find that these cytoskeletal dynamics also integrate biochemical signaling by colony-stimulating factor 1 and ultimately regulate chromatin accessibility to control the mechanosensitive gene expression program. This study identifies an “amoeboid” mode of ECM mechanosensing through which macrophages may regulate tissue repair and fibrosis.",

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AU - Meizlish, Matthew L.

AU - Kimura, Yoshitaka

AU - Pope, Scott D.

AU - Matta, Rita

AU - Kim, Catherine

AU - Philip, Naomi H.

AU - Meyaard, Linde

AU - Gonzalez, Anjelica

AU - Medzhitov, Ruslan

PY - 2024/3

Y1 - 2024/3

N2 - Tissue-resident macrophages play important roles in tissue homeostasis and repair. However, how macrophages monitor and maintain tissue integrity is not well understood. The extracellular matrix (ECM) is a key structural and organizational component of all tissues. Here, we find that macrophages sense the mechanical properties of the ECM to regulate a specific tissue repair program. We show that macrophage mechanosensing is mediated by cytoskeletal remodeling and can be performed in three-dimensional environments through a noncanonical, integrin-independent mechanism analogous to amoeboid migration. We find that these cytoskeletal dynamics also integrate biochemical signaling by colony-stimulating factor 1 and ultimately regulate chromatin accessibility to control the mechanosensitive gene expression program. This study identifies an “amoeboid” mode of ECM mechanosensing through which macrophages may regulate tissue repair and fibrosis.

AB - Tissue-resident macrophages play important roles in tissue homeostasis and repair. However, how macrophages monitor and maintain tissue integrity is not well understood. The extracellular matrix (ECM) is a key structural and organizational component of all tissues. Here, we find that macrophages sense the mechanical properties of the ECM to regulate a specific tissue repair program. We show that macrophage mechanosensing is mediated by cytoskeletal remodeling and can be performed in three-dimensional environments through a noncanonical, integrin-independent mechanism analogous to amoeboid migration. We find that these cytoskeletal dynamics also integrate biochemical signaling by colony-stimulating factor 1 and ultimately regulate chromatin accessibility to control the mechanosensitive gene expression program. This study identifies an “amoeboid” mode of ECM mechanosensing through which macrophages may regulate tissue repair and fibrosis.

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DO - 10.1126/sciadv.adk6906

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JO - Science advances

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Mechanosensing regulates tissue repair program in macrophages

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