Department of Chemistry and Biomolecular Sciences, Macquarie University, NSW 2109, Australia.
Mol Cell Proteomics. 2011 Nov;10(11):M111.009001. doi: 10.1074/mcp.M111.009001. Epub 2011 Aug 22.
Resistance to tubulin-binding agents used in cancer is often multifactorial and can include changes in drug accumulation and modified expression of tubulin isotypes. Glycans on cell membrane proteins play important roles in many cellular processes such as recognition and apoptosis, and this study investigated whether changes to the glycan structures on cell membrane proteins occur when cells become resistant to drugs. Specifically, we investigated the alteration of glycan structures on the cell membrane proteins of human T-cell acute lymphoblastic leukemia (CEM) cells that were selected for resistance to desoxyepothilone B (CEM/dEpoB). The glycan profile of the cell membrane glycoproteins was obtained by sequential release of N- and O-glycans from cell membrane fraction dotted onto polyvinylidene difluoride membrane with PNGase F and β-elimination respectively. The released glycan alditols were analyzed by liquid chromatography (graphitized carbon)-electrospray ionization tandem MS. The major N-glycan on CEM cell was the core fucosylated α2-6 monosialo-biantennary structure. Resistant CEM/dEpoB cells had a significant decrease of α2-6 linked sialic acid on N-glycans. The lower α2-6 sialylation was caused by a decrease in activity of β-galactoside α2-6 sialyltransferase (ST6Gal), and decreased expression of the mRNA. It is clear that the membrane glycosylation of leukemia cells changes during acquired resistance to dEpoB drugs and that this change occurs globally on all cell membrane glycoproteins. This is the first identification of a specific glycan modification on the surface of drug resistant cells and the mechanism of this downstream effect on microtubule targeting drugs may offer a route to new interventions to overcome drug resistance.
对癌症中使用的微管结合剂的耐药性通常是多因素的,可能包括药物蓄积和微管异构型表达的改变。细胞膜蛋白上的聚糖在许多细胞过程中发挥着重要作用,如识别和细胞凋亡,本研究调查了当细胞对药物产生耐药性时,细胞膜蛋白上的聚糖结构是否会发生变化。具体来说,我们研究了对脱氧表鬼臼毒素 B(CEM/dEpoB)具有耐药性的人 T 细胞急性淋巴细胞白血病(CEM)细胞的细胞膜蛋白上聚糖结构的改变。用 PNGase F 和 β-消除法分别从细胞膜部分斑点到聚偏二氟乙烯膜上依次释放 N-和 O-聚糖,获得细胞膜糖蛋白的聚糖图谱。用液相色谱(石墨化碳)-电喷雾串联质谱分析释放的糖醛醇。CEM 细胞上的主要 N-聚糖是核心岩藻糖基 α2-6 单唾液酸化双触角结构。耐药性 CEM/dEpoB 细胞的 N-聚糖上 α2-6 连接的唾液酸显著减少。α2-6 唾液酸化降低是由于β-半乳糖苷 α2-6 唾液酰转移酶(ST6Gal)活性降低和 mRNA 表达减少所致。很明显,白血病细胞的膜糖基化在获得对 dEpoB 药物的耐药性过程中发生了变化,并且这种变化发生在所有细胞膜糖蛋白上。这是首次在耐药细胞表面鉴定出特定的聚糖修饰,这种对微管靶向药物的下游影响的机制可能为克服耐药性提供新的干预途径。