Sriram Venkataraman, Willard Claire A, Liu Jianyun, Brutkiewicz Randy R
Department of Microbiology and Immunology, Indiana University School of Medicine, Indianapolis, IN 46202, USA.
Immunology. 2008 Feb;123(2):272-81. doi: 10.1111/j.1365-2567.2007.02696.x. Epub 2007 Aug 28.
The mouse CD1d1 glycoprotein is specialized in presenting lipid antigens to a novel class of T cells called natural killer T (NKT) cells. CD1d1 is predicted to contain five potential N-linked glycosylation sites (asparagine residues at positions 25, 38, 60, 128, and 183). Glycosylation has been shown to invariably affect the molecular and functional properties of various glycoproteins, and in the current report it was found that a conservative change of the individual endogenous asparagine residues in CD1d1 to glutamine differentially affected its functional expression. Although the maturation rate of the glycosylation mutants was comparable to that of wild type, they differed in their relative levels of surface expression and in their ability to stimulate NKT cells. Mutating all five glycosylation residues resulted in the absence of detectable CD1d1 expression, with a concomitant lack of NKT cell activation. Therefore, these results demonstrate that glycosylation plays a significant role in the functional expression of CD1d1.
小鼠CD1d1糖蛋白专门负责将脂质抗原呈递给一类名为自然杀伤T(NKT)细胞的新型T细胞。预测CD1d1含有五个潜在的N-连接糖基化位点(第25、38、60、128和183位的天冬酰胺残基)。糖基化已被证明会始终影响各种糖蛋白的分子和功能特性,在本报告中发现,将CD1d1中单个内源性天冬酰胺残基保守地改变为谷氨酰胺会不同程度地影响其功能表达。虽然糖基化突变体的成熟率与野生型相当,但它们在表面表达的相对水平和刺激NKT细胞的能力方面存在差异。突变所有五个糖基化残基导致无法检测到CD1d1表达,同时缺乏NKT细胞激活。因此,这些结果表明糖基化在CD1d1的功能表达中起重要作用。