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Article Dans Une Revue Communications Biology Année : 2023

Inflammatory cells dynamics control neovascularization and tissue healing after localized radiation induced injury in mice

Résumé

Abstract Local overexposure to ionizing radiation leads to chronic inflammation, vascular damage and cachexia. Here we investigate the kinetics of inflammatory cells from day (D)1 to D180 after mouse hindlimb irradiation and analyze the role of monocyte (Mo) subsets in tissue revascularization. At D1, we find that Mo and T cells are mobilized from spleen and bone marrow to the blood. New vessel formation during early phase, as demonstrated by ~1.4- and 2-fold increased angiographic score and capillary density, respectively, correlates with an increase of circulating T cells, and Mo hi and type 1-like macrophages in irradiated muscle. At D90 vascular rarefaction and cachexia are observed, associated with decreased numbers of circulating Mo lo and Type 2-like macrophages in irradiated tissue. Moreover, CCR2- and CX3CR1-deficency negatively influences neovascularization. However adoptive transfer of Mo hi enhances vessel growth. Our data demonstrate the radiation-induced dynamic inflammatory waves and the major role of inflammatory cells in neovascularization.
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Dates et versions

irsn-04251633 , version 1 (20-10-2023)

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Paternité

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Celine Loinard, Mohamed‐amine Benadjaoud, Bruno L'Homme, Stephane Flamant, Jan Baijer, et al.. Inflammatory cells dynamics control neovascularization and tissue healing after localized radiation induced injury in mice. Communications Biology, 2023, 6 (571), ⟨10.1038/s42003-023-04939-3⟩. ⟨irsn-04251633⟩
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