Martinez Jennifer, Cunha Larissa D, Park Sunmin, Yang Mao, Lu Qun, Orchard Robert, Li Quan-Zhen, Yan Mei, Janke Laura, Guy Cliff, Linkermann Andreas, Virgin Herbert W, Green Douglas R
Department of Immunology, St Jude Children's Research Hospital, Memphis, Tennessee 38105, USA.
Immunity, Inflammation, and Disease Laboratory, National Institute of Environmental Health Sciences, 111 T.W. Alexander Drive, Research Triangle Park, North Carolina 27709, USA.
Nature. 2016 May 5;533(7601):115-9. doi: 10.1038/nature17950. Epub 2016 Apr 20.
Defects in clearance of dying cells have been proposed to underlie the pathogenesis of systemic lupus erythematosus (SLE). Mice lacking molecules associated with dying cell clearance develop SLE-like disease, and phagocytes from patients with SLE often display defective clearance and increased inflammatory cytokine production when exposed to dying cells in vitro. Previously, we and others described a form of noncanonical autophagy known as LC3-associated phagocytosis (LAP), in which phagosomes containing engulfed particles, including dying cells, recruit elements of the autophagy pathway to facilitate maturation of phagosomes and digestion of their contents. Genome-wide association studies have identified polymorphisms in the Atg5 (ref. 8) and possibly Atg7 (ref. 9) genes, involved in both canonical autophagy and LAP, as markers of a predisposition for SLE. Here we describe the consequences of defective LAP in vivo. Mice lacking any of several components of the LAP pathway show increased serum levels of inflammatory cytokines and autoantibodies, glomerular immune complex deposition, and evidence of kidney damage. When dying cells are injected into LAP-deficient mice, they are engulfed but not efficiently degraded and trigger acute elevation of pro-inflammatory cytokines but not anti-inflammatory interleukin (IL)-10. Repeated injection of dying cells into LAP-deficient, but not LAP-sufficient, mice accelerated the development of SLE-like disease, including increased serum levels of autoantibodies. By contrast, mice deficient in genes required for canonical autophagy but not LAP do not display defective dying cell clearance, inflammatory cytokine production, or SLE-like disease, and, like wild-type mice, produce IL-10 in response to dying cells. Therefore, defects in LAP, rather than canonical autophagy, can cause SLE-like phenomena, and may contribute to the pathogenesis of SLE.
细胞凋亡清除缺陷被认为是系统性红斑狼疮(SLE)发病机制的基础。缺乏与细胞凋亡清除相关分子的小鼠会发展出类似SLE的疾病,SLE患者的吞噬细胞在体外接触凋亡细胞时,常常表现出清除缺陷和炎症细胞因子产生增加。此前,我们和其他人描述了一种非经典自噬形式,称为LC3相关吞噬作用(LAP),其中含有吞噬颗粒(包括凋亡细胞)的吞噬体招募自噬途径的元件,以促进吞噬体成熟及其内容物的消化。全基因组关联研究已确定参与经典自噬和LAP的Atg5(参考文献8)基因以及可能的Atg7(参考文献9)基因中的多态性,作为SLE易感性的标志物。在这里,我们描述了体内LAP缺陷的后果。缺乏LAP途径几种成分中任何一种的小鼠,其炎症细胞因子和自身抗体的血清水平升高,出现肾小球免疫复合物沉积以及肾损伤迹象。当将凋亡细胞注射到LAP缺陷小鼠体内时,它们会被吞噬但不能有效降解,并触发促炎细胞因子的急性升高,但不会触发抗炎性白细胞介素(IL)-10升高。将凋亡细胞反复注射到LAP缺陷而非LAP充足的小鼠体内,会加速类似SLE疾病的发展,包括自身抗体血清水平升高。相比之下,缺乏经典自噬而非LAP所需基因的小鼠,未表现出凋亡细胞清除缺陷、炎症细胞因子产生或类似SLE的疾病,并且与野生型小鼠一样,对凋亡细胞产生IL-10。因此,LAP缺陷而非经典自噬可导致类似SLE的现象,并可能促成SLE的发病机制。
