半乳糖对 Delta1 诱导的 NOTCH 信号的疯狂和狂躁边缘效应有差异调节作用。
Galactose differentially modulates lunatic and manic fringe effects on Delta1-induced NOTCH signaling.
机构信息
Department of Cell Biology, Albert Einstein College of Medicine, New York, New York 10461.
Department of Cell Biology, Albert Einstein College of Medicine, New York, New York 10461.
出版信息
J Biol Chem. 2012 Jan 2;287(1):474-483. doi: 10.1074/jbc.M111.317578. Epub 2011 Nov 11.
NOTCH signaling induced by Delta1 (DLL1) and Jagged1 (JAG1) NOTCH ligands is modulated by the β3N-acetylglucosaminyl transferase Fringe. LFNG (Lunatic Fringe) and MFNG (Manic Fringe) transfer N-acetylglucosamine (GlcNAc) to O-fucose attached to EGF-like repeats of NOTCH receptors. In co-culture NOTCH signaling assays, LFNG generally enhances DLL1-induced, but inhibits JAG1-induced, NOTCH signaling. In mutant Chinese hamster ovary (CHO) cells that do not add galactose (Gal) to the GlcNAc transferred by Fringe, JAG1-induced NOTCH signaling is not inhibited by LFNG or MFNG. In mouse embryos lacking B4galt1, NOTCH signaling is subtly reduced during somitogenesis. Here we show that DLL1-induced NOTCH signaling in CHO cells was enhanced by LFNG, but this did not occur in either Lec8 or Lec20 CHO mutants lacking Gal on O-fucose glycans. Lec20 mutants corrected with a B4galt1 cDNA became responsive to LFNG. By contrast, MFNG promoted DLL1-induced NOTCH signaling better in the absence of Gal than in its presence. This effect was reversed in Lec8 cells corrected by expression of a UDP-Gal transporter cDNA. The MFNG effect was abolished by a DDD to DDA mutation that inactivates MFNG GlcNAc transferase activity. The binding of soluble NOTCH ligands and NOTCH1/EGF1-36 generally reflected changes in NOTCH signaling caused by LFNG and MFNG. Therefore, the presence of Gal on O-fucose glycans differentially affects DLL1-induced NOTCH signaling modulated by LFNG versus MFNG. Gal enhances the effect of LFNG but inhibits the effect of MFNG on DLL1-induced NOTCH signaling, with functional consequences for regulating the strength of NOTCH signaling.
Delta1(DLL1)和 Jagged1(JAG1)NOTCH 配体诱导的 NOTCH 信号受β3N-乙酰氨基葡萄糖基转移酶 Fringe 调节。LFNG(疯狂 Fringe)和 MFNG(躁狂 Fringe)将 N-乙酰葡萄糖胺(GlcNAc)转移到 NOTCH 受体的 EGF 样重复序列上的 O-岩藻糖上。在共培养 NOTCH 信号测定中,LFNG 通常增强 DLL1 诱导的,但抑制 JAG1 诱导的,NOTCH 信号。在不向 Fringe 转移的 GlcNAc 添加半乳糖(Gal)的突变中国仓鼠卵巢(CHO)细胞中,LFNG 或 MFNG 不抑制 JAG1 诱导的 NOTCH 信号。在缺乏 B4galt1 的小鼠胚胎中,NOTCH 信号在体节形成过程中略有降低。在这里,我们表明 LFNG 增强了 CHO 细胞中 DLL1 诱导的 NOTCH 信号,但在缺乏 O-岩藻糖聚糖上 Gal 的 Lec8 或 Lec20 CHO 突变体中均未发生这种情况。用 B4galt1 cDNA 校正的 Lec20 突变体对 LFNG 有反应。相比之下,在缺乏 Gal 的情况下,MFNG 更能促进 DLL1 诱导的 NOTCH 信号。在 Lec8 细胞中,通过表达 UDP-Gal 转运体 cDNA 逆转了这种效应。MFNG 的效应被一种使 MFNG GlcNAc 转移酶活性失活的 DDD 到 DDA 突变所消除。可溶性 NOTCH 配体和 NOTCH1/EGF1-36 的结合一般反映了 LFNG 和 MFNG 引起的 NOTCH 信号变化。因此,O-岩藻糖聚糖上 Gal 的存在会影响 LFNG 与 MFNG 调节的 DLL1 诱导的 NOTCH 信号。Gal 增强了 LFNG 的作用,但抑制了 MFNG 对 DLL1 诱导的 NOTCH 信号的作用,这对调节 NOTCH 信号的强度具有功能后果。
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