Li Wenzhe, Ishihara Katsuhiko, Yokota Takafumi, Nakagawa Takatoshi, Koyama Nobuto, Jin Jinhua, Mizuno-Horikawa Yoko, Wang Xiangchun, Miyoshi Eiji, Taniguchi Naoyuki, Kondo Akihiro
Department of Glycotherapeutics, Osaka University Graduate School of Medicine, Osaka 565-0871, Japan.
Glycobiology. 2008 Jan;18(1):114-24. doi: 10.1093/glycob/cwm107. Epub 2007 Oct 2.
Mice with a targeted gene disruption of Fut8 (Fut8(-/-)) showed an abnormality in the transition from pro-B cell to pre-B cell, reduced peripheral B cells, and a decreased immunoglobulin production. Alpha 1,6-fucosyltransferase (FUT8) is responsible for the alpha 1,6 core fucosylation of N-glycans, which could modify the functions of glycoproteins. The loss of a core fucose in both very late antigen 4 (VLA-4, alpha4beta1 integrin) and vascular cell adhesion molecule 1 (VCAM-1) led to a decreased binding between pre-B cells and stromal cells, which impaired pre-B cells generation in Fut8(-/-) mice. Moreover, the B lineage genes, such as CD79a, CD79b, Ebf1, and Tcfe2a, were downregulated in Fut8(-/-) pre-B cells. Indeed, the frequency of preBCR(+)CD79b(low) cells in bone marrow pre-B cells in Fut8(-/-) was much lower than that in Fut8(+/+) cells. These results reveal a new role of core fucosylated N-glycans in mediating early B cell development and functions.
Fut8基因靶向破坏的小鼠(Fut8(-/-))在从前B细胞向pre-B细胞的转变过程中表现出异常,外周B细胞减少,免疫球蛋白产生降低。α1,6-岩藻糖基转移酶(FUT8)负责N-聚糖的α1,6核心岩藻糖基化,这可以修饰糖蛋白的功能。极晚期抗原4(VLA-4,α4β1整合素)和血管细胞粘附分子1(VCAM-1)中核心岩藻糖的缺失导致pre-B细胞与基质细胞之间的结合减少,这损害了Fut8(-/-)小鼠中pre-B细胞的生成。此外,B谱系基因,如CD79a、CD79b、Ebf1和Tcfe2a,在Fut8(-/-) pre-B细胞中表达下调。实际上,Fut8(-/-)骨髓pre-B细胞中preBCR(+)CD79b(low)细胞的频率远低于Fut8(+/+)细胞。这些结果揭示了核心岩藻糖基化N-聚糖在介导早期B细胞发育和功能中的新作用。