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PEGylation of lysine residues reduces the pro-migratory activity of IGF-I

机译:赖氨酸残基的聚乙二醇化降低了IGF-I的促迁移活性

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Background The insulin-like growth factor (IGF) system is composed of ligands and receptors which regulate cell proliferation, survival, differentiation and migration. Some of these functions involve regulation by the extracellular milieu, including binding proteins and other extracellular matrix proteins. However, the functions and exact nature of these interactions remain incomplete. Methods IGF-I variants PEGylated at lysines K27, K65 and K68, were assessed for binding to IGFBPs using BIAcore, and for phosphorylation of the IGF-IR. Furthermore, functional consequences of PEGylation were investigated using cell viability and migration assays. In addition, downstream signaling pathways were analyzed using phospho-AKT and phospho-ERK1/2 assays. Results IGF-I PEGylated at lysines 27 (PEG-K27), 65 (PEG-K65) or 68 (PEG-K68) was employed. Receptor phosphorylation was similarly reduced 2-fold with PEG-K65 and PEG-K68 in 3T3 fibroblasts and MCF-7 breast cancer cells, whereas PEG-K27 showed a more than 10- and 3-fold lower activation for 3T3 and MCF-7 cells, respectively. In addition, all PEG-IGF-I variants had a 10-fold reduced association rate to IGF binding proteins (IGFBPs). Functionally, all PEG variants lost their ability to induce cell migration in the presence of IGFBP-3/vitronectin (VN) complexes, whereas cell viability was fully preserved. Analysis of downstream signaling revealed that AKT was preferentially affected upon treatment with PEG-IGF-I variants whereas MAPK signaling was unaffected by PEGylation. Conclusion PEGylation of IGF-I has an impact on cell migration but not on cell viability. General significance PEG-IGF-I may differentially modulate IGF-I mediated functions that are dependent on receptor interaction as well as key extracellular proteins such as VN and IGFBPs.
机译:背景技术胰岛素样生长因子(IGF)系统由调节细胞增殖,存活,分化和迁移的配体和受体组成。这些功能中的一些涉及细胞外环境的调节,包括结合蛋白和其他细胞外基质蛋白。但是,这些交互的功能和确切性质仍然不完整。方法使用BIAcore评估在赖氨酸K27,K65和K68处聚乙二醇化的IGF-I变体与IGFBP的结合以及IGF-IR的磷酸化。此外,使用细胞活力和迁移试验研究了聚乙二醇化的功能后果。另外,使用磷酸化AKT和磷酸化ERK1 / 2测定法分析了下游信号传导途径。结果使用在赖氨酸27(PEG-K27),65(PEG-K65)或68(PEG-K68)处聚乙二醇化的IGF-1。 PEG-K65和PEG-K68在3T3成纤维细胞和MCF-7乳腺癌细胞中受体磷酸化程度相似地降低了2倍,而PEG-K27对3T3和MCF-7细胞的活化降低了10倍和3倍以上, 分别。另外,所有PEG-IGF-1变体与IGF结合蛋白(IGFBP)的结合率降低了10倍。从功能上讲,所有PEG变体在存在IGFBP-3 /玻连蛋白(VN)复合物的情况下均丧失了诱导细胞迁移的能力,而细胞活力却被完全保留。下游信号转导的分析表明,用PEG-IGF-1变体处理后,AKT优先受到影响,而MAPK信号转导不受PEG化的影响。结论IGF-1的聚乙二醇化对细胞迁移有影响,但对细胞生存力没有影响。一般意义PEG-IGF-1可能差异调节依赖受体相互作用以及关键细胞外蛋白(例如VN和IGFBPs)的IGF-1介导的功能。

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