SOCS3 is a modulator of human macrophage phagocytosis

细胞生物学 SOCS3 生物 吞噬作用 小干扰RNA PI3K/AKT/mTOR通路 RAC1 基因敲除 促炎细胞因子 膜皱折 巨噬细胞 吞噬体 信号转导 肌动蛋白细胞骨架 细胞凋亡 炎症 细胞 转染 免疫学 细胞骨架 细胞培养 生物化学 体外 遗传学 车站3
作者
Peter M. Gordon,Blessing Okai,Joseph Hoare,Lars P. Erwig,Heather M. Wilson
出处
期刊:Journal of Leukocyte Biology [Oxford University Press]
卷期号:100 (4): 771-780 被引量:41
标识
DOI:10.1189/jlb.3a1215-554rr
摘要

Abstract Suppressor of cytokine signaling (SOCS) proteins are recognized as key feedback inhibitors modulating the inflammatory activities of macrophages, but comparatively little is known about whether and how they affect phagocytosis. Here, we evaluated the role of SOCS3 in driving the inflammatory phenotype and phagocytic uptake of apoptotic cells by human macrophages and the signaling pathways that are necessary for efficient phagocytosis. In M1-activated human monocyte-derived macrophages, SOCS3 silencing, using short interfering RNA technology, resulted in a decreased expression of proinflammatory markers and an increased expression of M2 macrophage markers. Strikingly, we demonstrated for the first time that SOCS3 knockdown significantly enhances the phagocytic capacity of M1 macrophages for carboxylate-modified beads and apoptotic neutrophils. With the use of live-cell video microscopy, we showed that SOCS3 knockdown radically affects the temporal dynamics of particle engulfment, enabling more rapid uptake of a second target and delaying postengulfment processing, as evidenced by deferred acquisition of phagosome maturation markers. SOCS3 knockdown impacts on phagocytosis through increased PI3K and Ras-related C3 botulinum toxin substrate 1 (Rac1) activity, pathways essential for engulfment and clearance of apoptotic cells. Enhanced phagocytosis in SOCS3-silenced cells was reversed by pharmacological PI3K inhibition. Furthermore, we revealed that actin polymerization, downstream of PI3K/Rac1 activation, was significantly altered in SOCS3-silenced cells, providing a mechanism for their greater phagocytic activity. The findings support a new model, whereby SOCS3 not only plays an important role in driving macrophage inflammatory responses but modulates key signaling pathways organizing the actin cytoskeleton to regulate the efficiency of phagocytic processes.
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