Glendenning Leandre M, Zhou Julie Y, Kukan Emily N, Gao Chao, Cummings Richard D, Joshi Smita, Whiteheart Sidney W, Cobb Brian A
Department of Pathology, Case Western Reserve University School of Medicine, 10900 Euclid Avenue, Cleveland, OH 44106-7288, USA.
Harvard Medical School Center for Glycoscience, National Center for Functional Glycomics, Beth Israel Deaconess Medical Center, 330 Brookline Avenue, Boston, MA 02215, USA.
Glycobiology. 2023 Dec 25;33(11):943-953. doi: 10.1093/glycob/cwad052.
The IgG antibody class forms an important basis of the humoral immune response, conferring reciprocal protection from both pathogens and autoimmunity. IgG function is determined by the IgG subclass, as defined by the heavy chain, as well as the glycan composition at N297, the conserved site of N-glycosylation within the Fc domain. For example, lack of core fucose promotes increased antibody-dependent cellular cytotoxicity, whereas α2,6-linked sialylation by the enzyme ST6Gal1 helps to drive immune quiescence. Despite the immunological significance of these carbohydrates, little is known about how IgG glycan composition is regulated. We previously reported that mice with ST6Gal1-deficient B cells have unaltered IgG sialylation. Likewise, ST6Gal1 released into the plasma by hepatocytes does not significantly impact overall IgG sialylation. Since IgG and ST6Gal1 have independently been shown to exist in platelet granules, it was possible that platelet granules could serve as a B cell-extrinsic site for IgG sialylation. To address this hypothesis, we used a platelet factor 4 (Pf4)-Cre mouse to delete ST6Gal1 in megakaryocytes and platelets alone or in combination with an albumin-Cre mouse to also remove it from hepatocytes and the plasma. The resulting mouse strains were viable and had no overt pathological phenotype. We also found that despite targeted ablation of ST6Gal1, no change in IgG sialylation was apparent. Together with our prior findings, we can conclude that in mice, neither B cells, the plasma, nor platelets have a substantial role in homeostatic IgG sialylation.
IgG抗体类别构成体液免疫反应的重要基础,赋予对病原体和自身免疫的相互保护作用。IgG的功能由重链定义的IgG亚类以及Fc结构域中N-糖基化保守位点N297处的聚糖组成决定。例如,缺乏核心岩藻糖会促进抗体依赖性细胞毒性增加,而由ST6Gal1酶进行的α2,6-连接唾液酸化有助于促进免疫静止。尽管这些碳水化合物具有免疫学意义,但关于IgG聚糖组成如何调节知之甚少。我们之前报道过,缺乏ST6Gal1的B细胞的小鼠IgG唾液酸化未改变。同样,肝细胞释放到血浆中的ST6Gal1对整体IgG唾液酸化没有显著影响。由于IgG和ST6Gal1已分别被证明存在于血小板颗粒中,血小板颗粒有可能作为IgG唾液酸化的B细胞外位点。为了验证这一假设,我们使用血小板因子4(Pf4)-Cre小鼠单独在巨核细胞和血小板中删除ST6Gal1,或与白蛋白-Cre小鼠联合使用以从肝细胞和血浆中也去除它。产生的小鼠品系是可行的,并且没有明显的病理表型。我们还发现,尽管靶向切除了ST6Gal1,但IgG唾液酸化没有明显变化。结合我们之前的发现,我们可以得出结论,在小鼠中,B细胞、血浆和血小板在稳态IgG唾液酸化中都没有实质性作用。