Department of Pharmacology and Molecular Sciences, Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA.
Glycobiology. 2012 Oct;22(10):1289-301. doi: 10.1093/glycob/cws103. Epub 2012 Jun 26.
Gangliosides-sialylated glycosphingolipids-are the major glycoconjugates of nerve cells. The same four structures-GM1, GD1a, GD1b and GT1b-comprise the great majority of gangliosides in mammalian brains. They share a common tetrasaccharide core (Galβ1-3GalNAcβ1-4Galβ1-4Glcβ1-1'Cer) with one or two sialic acids on the internal galactose and zero (GM1 and GD1b) or one (GD1a and GT1b) α2-3-linked sialic acid on the terminal galactose. Whereas the genes responsible for the sialylation of the internal galactose are known, those responsible for terminal sialylation have not been established in vivo. We report that St3gal2 and St3gal3 are responsible for nearly all the terminal sialylation of brain gangliosides in the mouse. When brain ganglioside expression was analyzed in adult St3gal1-, St3gal2-, St3gal3- and St3gal4-null mice, only St3gal2-null mice differed significantly from wild type, expressing half the normal amount of GD1a and GT1b. St3gal1/2-double-null mice were no different than St3gal2-single-null mice; however, St3gal2/3-double-null mice were >95% depleted in gangliosides GD1a and GT1b. Total ganglioside expression (lipid-bound sialic acid) in the brains of St3gal2/3-double-null mice was equivalent to that in wild-type mice, whereas total protein sialylation was reduced by half. St3gal2/3-double-null mice were small, weak and short lived. They were half the weight of wild-type mice at weaning and displayed early hindlimb dysreflexia. We conclude that the St3gal2 and St3gal3 gene products (ST3Gal-II and ST3Gal-III sialyltransferases) are largely responsible for ganglioside terminal α2-3 sialylation in the brain, synthesizing the major brain gangliosides GD1a and GT1b.
神经细胞的主要糖复合物是糖脂神经节苷脂。在哺乳动物大脑中,绝大多数神经节苷脂由 GM1、GD1a、GD1b 和 GT1b 这四种结构组成。它们都含有一个共同的四糖核心(Galβ1-3GalNAcβ1-4Galβ1-4Glcβ1-1'Cer),内部半乳糖上带有一个或两个唾液酸,而末端半乳糖上则带有零个(GM1 和 GD1b)或一个(GD1a 和 GT1b)α2-3 连接的唾液酸。虽然已知负责内部半乳糖唾液酸化的基因,但在体内尚未确定负责末端唾液酸化的基因。我们报告说,St3gal2 和 St3gal3 负责小鼠大脑神经节苷脂几乎所有的末端唾液酸化。在成年 St3gal1-、St3gal2-、St3gal3-和 St3gal4-基因缺失小鼠的大脑神经节苷脂表达分析中,只有 St3gal2 基因缺失小鼠与野生型小鼠有显著差异,其 GD1a 和 GT1b 的表达量仅为正常水平的一半。St3gal1/2 双基因缺失小鼠与 St3gal2 单基因缺失小鼠无差异;然而,St3gal2/3 双基因缺失小鼠的 GD1a 和 GT1b 神经节苷脂含量减少了>95%。St3gal2/3 双基因缺失小鼠大脑中的总神经节苷脂表达(脂结合唾液酸)与野生型小鼠相当,而总蛋白唾液酸化减少了一半。St3gal2/3 双基因缺失小鼠体型小、身体弱、寿命短。它们在断奶时体重仅为野生型小鼠的一半,并出现早期后肢反射亢进。我们的结论是,St3gal2 和 St3gal3 基因产物(ST3Gal-II 和 ST3Gal-III 唾液酸转移酶)主要负责大脑中神经节苷脂末端α2-3 唾液酸化,合成主要的大脑神经节苷脂 GD1a 和 GT1b。
