Macrophage–stroma interactions in fibrosis: biochemical, biophysical, and cellular perspectives

Vasse, Gwenda F.; Nizamoglu, Mehmet; Heijink, Irene H.; Schlepütz, Marco; Rijn, Patrick van; Thomas, Matthew; Burgess, Janette K.; Melgert, Barbro N.

doi:10.1002/path.5632

Cited by 41 publications

(21 citation statements)

References 187 publications

(235 reference statements)

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“…Interestingly, CD68 + macrophages are widely distributed in tissues and organs of the body, with high heterogeneity and plasticity. The first stage of bone repair under physiological conditions is the inflammatory stage, and a large number of macrophages are recruited to the implant site ( Vasse et al, 2021 ). In subcutaneous tissue and bone tissue, more CCR7 + cells surround Ti6Al4V, and more Arg-1 + macrophages surround Ti2448.…”

Section: Discussionmentioning

confidence: 99%

Three-Dimensionally Printed Ti2448 With Low Stiffness Enhanced Angiogenesis and Osteogenesis by Regulating Macrophage Polarization via Piezo1/YAP Signaling Axis

Tang

Wei

Tian

et al. 2021

Front. Cell Dev. Biol.

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Previous studies have found that the novel low-elastic-modulus Ti2448 alloy can significantly reduce stress shielding and contribute to better bone repair than the conventional Ti6Al4V alloy. In this study, the promotion of osteogenesis and angiogenesis by three-dimensionally printed Ti2448 were also observed in vivo. However, these were not significant in a series of in vitro tests. The stiffness of materials has been reported to greatly affect the response of macrophages, and the immunological regulation mediated by macrophages directly determines the fate of bone implants. Therefore, we designed more experiments to explore the role of three-dimensionally printed Ti2448 in macrophage activation and related osteogenesis and angiogenesis. As expected, we found a significant increase in the number of M2 macrophages around Ti2448 implants, as well as better osteogenesis and angiogenesis in vivo. In vitro studies also showed that macrophages pre-treated with Ti2448 alloy significantly promoted angiogenesis and osteogenic differentiation through increased PDGF-BB and BMP-2 secretion, and the polarization of M2 macrophages was enhanced. We deduced that Ti2448 promotes angiogenesis and osteogenesis through Piezo1/YAP signaling axis-mediated macrophage polarization and related cytokine secretion. This research might provide insight into the biological properties of Ti2448 and provide a powerful theoretical supplement for the future application of three-dimensionally printed Ti2448 implants in orthopaedic surgery.

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Section: Discussionmentioning

confidence: 99%

Three-Dimensionally Printed Ti2448 With Low Stiffness Enhanced Angiogenesis and Osteogenesis by Regulating Macrophage Polarization via Piezo1/YAP Signaling Axis

Tang

Wei

Tian

et al. 2021

Front. Cell Dev. Biol.

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“…Macrophages are versatile cells that exhibit a high degree of plasticity. The process through which macrophages obtain distinctive functional features as a response to certain stimuli from their microenvironment is known as macrophage polarization [ 18 ]. When tissue is injured, macrophages are pushed towards a pro-inflammatory phenotype that should be followed by the switching of these cells to a wound healing phenotype that promotes ECM production by myofibroblasts, and eventually, polarizing to a pro-remodeling phenotype that is required to ensure restoration of physiological tissue composition [ 19 ].…”

Section: Macrophage Polarizationmentioning

confidence: 99%

Is the Macrophage Phenotype Determinant for Fibrosis Development?

et al. 2021

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Fibrosis is a pathophysiological process of wound repair that leads to the deposit of connective tissue in the extracellular matrix. This complication is mainly associated with different pathologies affecting several organs such as lung, liver, heart, kidney, and intestine. In this fibrotic process, macrophages play an important role since they can modulate fibrosis due to their high plasticity, being able to adopt different phenotypes depending on the microenvironment in which they are found. In this review, we will try to discuss whether the macrophage phenotype exerts a pivotal role in the fibrosis development in the most important fibrotic scenarios.

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“…The tissue‐resident macrophages (M0) are versatile cells that exhibit a high degree of plasticity represented by classically activated M1 (pro-inflammatory) or alternatively activated M2 (anti-inflammatory/pro-fibrotic) macrophages ( 8 ). The macrophage polarization is extremely variable and switching of one “activation-type” to another, stimulated by appropriate factors or tissue microenvironment, is a rapid and reversible process.…”

Section: Introductionmentioning

confidence: 99%

Roles of Macrophage Polarization and Macrophage-Derived miRNAs in Pulmonary Fibrosis

2021

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This mini-review summarizes the current evidence for the role of macrophage activation and polarization in inflammation and immune response pertinent to interstitial lung disease, specifically pulmonary fibrosis. In the fibrosing lung, the production and function of inflammatory and fibrogenic mediators involved in the disease development have been reported to be regulated by the effects of polarized M1/M2 macrophage populations. The M1 and M2 macrophage phenotypes were suggested to correspond with the pro-inflammatory and pro-fibrogenic signatures, respectively. These responses towards tissue injury followed by the development and progression of lung fibrosis are further regulated by macrophage-derived microRNAs (miRNAs). Besides cellular miRNAs, extracellular exosomal-miRNAs derived from M2 macrophages have also been proposed to promote the progression of pulmonary fibrosis. In a future perspective, harnessing the noncoding miRNAs with a key role in the macrophage polarization is, therefore, suggested as a promising therapeutic strategy for this debilitating disease.

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Macrophage–stroma interactions in fibrosis: biochemical, biophysical, and cellular perspectives

Cited by 41 publications

References 187 publications

Three-Dimensionally Printed Ti2448 With Low Stiffness Enhanced Angiogenesis and Osteogenesis by Regulating Macrophage Polarization via Piezo1/YAP Signaling Axis

Three-Dimensionally Printed Ti2448 With Low Stiffness Enhanced Angiogenesis and Osteogenesis by Regulating Macrophage Polarization via Piezo1/YAP Signaling Axis

Is the Macrophage Phenotype Determinant for Fibrosis Development?

Roles of Macrophage Polarization and Macrophage-Derived miRNAs in Pulmonary Fibrosis

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