*Department of Life Science, National Taiwan University, Taipei 106, Taiwan, Republic of China.
∥Department of Pediatrics and Pediatric Cardiology, Taipei Veterans General Hospital 112, Taiwan, Republic of China.
Biochem J. 2014 May 15;460(1):69-78. doi: 10.1042/BJ20131424.
Fucosylation regulates various pathological events in cells. We reported that different levels of CRT (calreticulin) affect the cell adhesion and metastasis of bladder cancer. However, the precise mechanism of tumour metastasis regulated by CRT remains unclear. Using a DNA array, we identified FUT1 (fucosyltransferase 1) as a gene regulated by CRT expression levels. CRT regulated cell adhesion through α1,2-linked fucosylation of β1 integrin and this modification was catalysed by FUT1. To clarify the roles for FUT1 in bladder cancer, we transfected the human FUT1 gene into CRT-RNAi stable cell lines. FUT1 overexpression in CRT-RNAi cells resulted in increased levels of β1 integrin fucosylation and rescued cell adhesion to type-I collagen. Treatment with UEA-1 (Ulex europaeus agglutinin-1), a lectin that recognizes FUT1-modified glycosylation structures, did not affect cell adhesion. In contrast, a FUT1-specific fucosidase diminished the activation of β1 integrin. These results indicated that α1,2-fucosylation of β1 integrin was not involved in integrin-collagen interaction, but promoted β1 integrin activation. Moreover, we demonstrated that CRT regulated FUT1 mRNA degradation at the 3'-UTR. In conclusion, the results of the present study suggest that CRT stabilized FUT1 mRNA, thereby leading to an increase in fucosylation of β1 integrin. Furthermore, increased fucosylation levels activate β1 integrin, rather than directly modifying the integrin-binding sites.
岩藻糖基化调节细胞中的各种病理事件。我们报道了 CRT(钙网蛋白)的不同水平影响膀胱癌的细胞黏附和转移。然而,CRT 调节肿瘤转移的确切机制尚不清楚。通过 DNA 芯片,我们鉴定出 FUT1(岩藻糖基转移酶 1)是 CRT 表达水平调节的基因。CRT 通过β1 整联蛋白的α1,2 连接岩藻糖基化调节细胞黏附,这种修饰由 FUT1 催化。为了阐明 FUT1 在膀胱癌中的作用,我们将人 FUT1 基因转染到 CRT-RNAi 稳定细胞系中。CRT-RNAi 细胞中 FUT1 的过表达导致β1 整联蛋白岩藻糖基化水平升高,并挽救了细胞对 I 型胶原的黏附。用 UEA-1(欧洲荆豆凝集素-1)处理不会影响细胞黏附,UEA-1 是一种识别 FUT1 修饰的糖基化结构的凝集素。相反,一种 FUT1 特异性岩藻糖苷酶降低了β1 整联蛋白的激活。这些结果表明,β1 整联蛋白的α1,2-岩藻糖基化不参与整合素-胶原相互作用,但促进了β1 整联蛋白的激活。此外,我们证明 CRT 在 3'-UTR 处调节 FUT1 mRNA 的降解。总之,本研究的结果表明,CRT 稳定了 FUT1 mRNA,从而导致β1 整联蛋白的岩藻糖基化增加。此外,增加的岩藻糖基化水平激活β1 整联蛋白,而不是直接修饰整合素结合位点。
