4-氟葡糖胺对小鼠气道平滑肌细胞中硫酸乙酰肝素和硫酸软骨素糖胺聚糖生物合成的调控
Regulation of heparan sulfate and chondroitin sulfate glycosaminoglycan biosynthesis by 4-fluoro-glucosamine in murine airway smooth muscle cells.
作者信息
Nigro Julie, Wang Aimin, Mukhopadhyay Durba, Lauer Mark, Midura Ronald J, Sackstein Robert, Hascall Vincent C
机构信息
From the Department of Biomedical Engineering, Lerner Research Institute of The Cleveland Clinic Foundation, Cleveland, Ohio 44195; Commonwealth Scientific and Industrial Research Organization Molecular and Health Technologies, Clayton, Victoria 3168, Australia.
From the Department of Biomedical Engineering, Lerner Research Institute of The Cleveland Clinic Foundation, Cleveland, Ohio 44195.
出版信息
J Biol Chem. 2009 Jun 19;284(25):16832-16839. doi: 10.1074/jbc.M109.002956. Epub 2009 Apr 3.
The importance of the pathological changes in proteoglycans has driven the need to study and design novel chemical tools to control proteoglycan synthesis. Accordingly, we tested the fluorinated analogue of glucosamine (4-fluoro-N-acetyl-glucosamine (4-F-GlcNAc)) on the synthesis of heparan sulfate (HS) and chondroitin sulfate (CS) by murine airway smooth muscle (ASM) cells in the presence of radiolabeled metabolic precursors. Secreted and cell-associated CS and HS were assessed for changes in size by Superose 6 chromatography. Treatment of ASM cells with 4-F-GlcNAc (100 microM) reduced the quantity (by 64.1-76.6%) and decreased the size of HS/CS glycosaminoglycans associated with the cell layer (K(av) shifted from 0.30 to 0.45). The quantity of CS secreted into the medium decreased by 65.7-73.0%, and the size showed a K(av) shift from 0.30 to 0.50. Treatment of ASM cells with 45 microM and 179 microM 4-F-GlcNAc in the presence of a stimulator of CS synthesis, 4-methylumbelliferyl-beta-D-xyloside, reduced the amount of the xyloside-CS chains by 65.4 and 87.0%, respectively. The size of xyloside-CS chains synthesized in the presence of 4-F-GlcNAc were only slightly larger than those with xyloside treatment alone (K(av) of 0.55 compared with that of 0.6). The effects of 4-F-GlcNAc to inhibit CS synthesis were not observed with equimolar concentrations of glucosamine. We propose that 4-F-GlcNAc inhibits CS synthesis by inhibiting 4-epimerization of UDP-GlcNAc to UDP-GalNAc, thereby depleting one of the substrates required, whereas HS elongation is inhibited by truncation when the nonreducing terminus of the growing chain is capped with 4-F-GlcNAc.
蛋白聚糖病理变化的重要性促使人们需要研究和设计新型化学工具来控制蛋白聚糖的合成。因此,我们在存在放射性标记代谢前体的情况下,测试了氨基葡萄糖的氟化类似物(4-氟-N-乙酰氨基葡萄糖(4-F-GlcNAc))对小鼠气道平滑肌(ASM)细胞合成硫酸乙酰肝素(HS)和硫酸软骨素(CS)的影响。通过Superose 6色谱法评估分泌型和细胞相关型CS和HS的大小变化。用4-F-GlcNAc(100 microM)处理ASM细胞可减少细胞层相关的HS/CS糖胺聚糖的数量(减少64.1-76.6%)并减小其大小(K(av)从0.30变为0.45)。分泌到培养基中的CS数量减少了65.7-73.0%,大小显示K(av)从0.30变为0.50。在存在CS合成刺激剂4-甲基伞形酮基-β-D-木糖苷的情况下,用45 microM和179 microM的4-F-GlcNAc处理ASM细胞,分别使木糖苷-CS链的量减少了65.4%和87.0%。在4-F-GlcNAc存在下合成的木糖苷-CS链的大小仅比单独用木糖苷处理的略大(K(av)为0.55,而单独用木糖苷处理时为0.6)。等摩尔浓度的氨基葡萄糖未观察到4-F-GlcNAc抑制CS合成的作用。我们提出,4-F-GlcNAc通过抑制UDP-GlcNAc向UDP-GalNAc的4-差向异构化来抑制CS合成,从而耗尽所需的一种底物,而当生长链的非还原末端被4-F-GlcNAc封端时,HS延伸通过截短而受到抑制。
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