获得性和内源性糖萼形成双向“不要吞噬”和“不要被吞噬”的吞噬屏障。
An Acquired and Endogenous Glycocalyx Forms a Bidirectional "Don't Eat" and "Don't Eat Me" Barrier to Phagocytosis.
机构信息
Program in Cell Biology, Peter Gilgan Centre for Research and Learning, Hospital for Sick Children, 686 Bay Street, 19-9800, Toronto, ON M5G 0A4, Canada.
Neurosciences and Cellular and Structural Biology Division, Eunice Kennedy Shriver National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD 20892, USA.
出版信息
Curr Biol. 2021 Jan 11;31(1):77-89.e5. doi: 10.1016/j.cub.2020.09.082. Epub 2020 Oct 22.
Macrophages continuously survey their environment in search of pathogens or apoptotic corpses or debris. Targets intended for clearance expose ligands that initiate their phagocytosis ("eat me" signals), while others avoid phagocytosis by displaying inhibitory ligands ("don't eat me" signals). We report that such ligands can be obscured by the glycosaminoglycans and glycoproteins that coat pathogenic as well as malignant phagocytic targets. In addition, a reciprocal barrier of self-synthesized or acquired glycocalyx components on the macrophage surface shrouds phagocytic receptors, curtailing their ability to engage particles. The coating layers of macrophages and their targets hinder phagocytosis by both steric and electrostatic means. Their removal by enzymatic means is shown to markedly enhance phagocytic efficiency. In particular, we show that the removal of mucins, which are overexpressed in cancer cells, facilitates their clearance. These results shed light on the physical barriers that modulate phagocytosis, which have been heretofore underappreciated. VIDEO ABSTRACT.
巨噬细胞不断地监测其环境,以寻找病原体、凋亡的尸体或碎片。拟清除的目标会暴露配体,从而引发吞噬作用(“吃我”信号),而其他目标则通过显示抑制性配体(“别吃我”信号)来避免吞噬作用。我们报告说,这些配体可能被覆盖在病原体和恶性吞噬目标上的糖胺聚糖和糖蛋白所掩盖。此外,巨噬细胞表面自身合成或获得的糖萼成分的反向屏障也掩盖了吞噬受体,限制了它们与颗粒结合的能力。巨噬细胞及其靶标的涂层通过空间和静电方式阻碍吞噬作用。通过酶法去除这些涂层可显著提高吞噬效率。特别是,我们发现去除癌细胞过度表达的粘蛋白有助于清除它们。这些结果揭示了调节吞噬作用的物理障碍,这些障碍迄今一直被低估。视频摘要。
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