Jack W. D. Blackburn scite author profile

Efferocytosis is essential for homeostasis and prevention of the inflammatory and autoimmune diseases resulting from apoptotic cell lysis. CD93 is a transmembrane glycoprotein previously implicated in efferocytosis, with mutations in CD93 predisposing patients to efferocytosis‐associated diseases. CD93 is a cell surface protein, which is proteolytically shed under inflammatory conditions, but it is unknown how CD93 mediates efferocytosis or whether its efferocytic activity is mediated by the soluble or membrane‐bound form. Herein, using cell lines and human monocytes and macrophages, we demonstrate that soluble CD93 (sCD93) potently opsonizes apoptotic cells but not a broad range of microorganisms, whereas membrane‐bound CD93 has no phagocytic, efferocytic, or tethering activity. Using mass spectrometry, we identified αxβ2 as the receptor that recognizes sCD93, and via deletion mutagenesis determined that sCD93 binds to apoptotic cells via its C‐type lectin‐like domain and to αxβ2 by its EGF‐like repeats. The bridging of apoptotic cells to αxβ2 markedly enhanced efferocytosis by macrophages and was abrogated by αxβ2 knockdown. Combined, these data elucidate the mechanism by which CD93 regulates efferocytosis and identifies a previously unreported opsonin‐receptor system utilized by phagocytes for the efferocytic clearance of apoptotic cells.

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Quantitative Efferocytosis Assays

Evans

Blackburn

Yin

et al. 2016

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Efferocytosis, the phagocytic removal of apoptotic cells, is a dynamic process requiring recruitment of numerous regulatory proteins to forming efferosomes in a tightly regulated manner. Herein we describe microscopy-based methods for the enumeration of efferocytic events and characterization of the spatiotemporal dynamics of signaling molecule recruitment to efferosomes, using genetically encoded probes and immunofluorescent labeling. While these methods are illustrated using macrophages, they are applicable to any efferocytic cell type.

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A Humanized Antibody against LRG1 that Inhibits Angiogenesis and Reduces Retinal Vascular Leakage

Kallenberg

Tripathi

Javaid

et al. 2020

Preprint

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Pathological angiogenesis contributes to morbidity in a number of diseases including cancer, diabetic retinopathy and the neovascular form of age-related macular degeneration, leading to significant efforts to develop effective anti-angiogenic therapeutics for these conditions. The field is dominated by inhibitors of vascular endothelial growth factor (VEGF), yet angiogenesis can also be driven and modified by other factors. We have previously demonstrated that leucine-rich alpha-2-glycoprotein 1 (LRG1) contributes to abnormal vessel growth by activating a TGFß switch. Here we report the development and characterisation of a function-blocking fully humanised IgG4 and its Fab fragment, that bind to LRG1 with high affinity and specificity and inhibit vascular leakage in the mouse model of laser-induced choroidal neovascularisation. In summary, we have developed a therapeutic antibody that targets a VEGF-independent signalling axis, which may be effective in a number of conditions either as monotherapy or in combination with other vascular targeted therapies.

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Leucine-rich alpha-2-glycoprotein 1 (LRG1) as a novel ADC target

Javaid

Pilotti²,

Camilli³

et al. 2021

RSC Chem. Biol.

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