Jones Mark B, Oswald Douglas M, Joshi Smita, Whiteheart Sidney W, Orlando Ron, Cobb Brian A
Department of Pathology, Case Western Reserve University School of Medicine, Cleveland, OH 44106;
Department of Molecular and Cellular Biochemistry, University of Kentucky, Lexington, KY 40536;
Proc Natl Acad Sci U S A. 2016 Jun 28;113(26):7207-12. doi: 10.1073/pnas.1523968113. Epub 2016 Jun 14.
IgG carrying terminal α2,6-linked sialic acids added to conserved N-glycans within the Fc domain by the sialyltransferase ST6Gal1 accounts for the anti-inflammatory effects of large-dose i.v. Ig (IVIg) in autoimmunity. Here, B-cell-specific ablation of ST6Gal1 in mice revealed that IgG sialylation can occur in the extracellular environment of the bloodstream independently of the B-cell secretory pathway. We also discovered that secreted ST6Gal1 is produced by cells lining central veins in the liver and that IgG sialylation is powered by serum-localized nucleotide sugar donor CMP-sialic acid that is at least partially derived from degranulating platelets. Thus, antibody-secreting cells do not exclusively control the sialylation-dependent anti-inflammatory function of IgG. Rather, IgG sialylation can be regulated by the liver and platelets through the corresponding release of enzyme and sugar donor into the cardiovascular circulation.
通过唾液酸转移酶ST6Gal1添加到Fc结构域内保守N-聚糖上的携带末端α2,6-连接唾液酸的IgG,解释了大剂量静脉注射免疫球蛋白(IVIg)在自身免疫中的抗炎作用。在此,小鼠中ST6Gal1的B细胞特异性消融表明,IgG糖基化可在血流的细胞外环境中独立于B细胞分泌途径发生。我们还发现,分泌的ST6Gal1由肝脏中央静脉内衬细胞产生,并且IgG糖基化由血清定位的核苷酸糖供体CMP-唾液酸驱动,该供体至少部分源自脱颗粒的血小板。因此,抗体分泌细胞并非唯一控制IgG的糖基化依赖性抗炎功能。相反,IgG糖基化可由肝脏和血小板通过相应地将酶和糖供体释放到心血管循环中来调节。