电穿孔生长因子受体结合蛋白2- src同源2结合肽对完整细胞中生长因子刺激的细胞外信号调节激酶1和2活化的特异性抑制

L Raptis, H L Brownell, A M Vultur, G M Ross, E Tremblay, B E Elliott
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引用次数: 0

摘要

Ras通路的激活是多种生长因子(如表皮生长因子、血小板源性生长因子或肝细胞生长因子)有丝分裂发生的核心。Ras的激活需要接合子的功能,如生长因子受体结合蛋白2,它可以直接或间接地通过Src同源2结构域与被激活的受体结合。为了研究生长因子受体结合蛋白2的Src同源2结构域在这些生长因子引发的有丝分裂反应中的作用,我们引入了一种肽(ppe -phosphono-methylphenylalanine- inqs),它可以通过原位电穿孔选择性地将该结构域结合到生长在导电氧化铟锡玻璃上的小鼠、大鼠或人类细胞中。随后用生长因子刺激细胞,并通过检测其激活形式的特异性抗体,评估下游目标细胞外信号调节激酶(ERK) 1/2的激活情况。电极和载玻片被配置为提供非电穿孔的对照细胞与电穿孔的对照细胞并排,两者都生长在同一类型的氧化铟锡涂层玻璃表面上。数据表明,与含有苯丙氨酸的对照物相比,该肽可以显著抑制表皮生长因子或血小板源性生长因子介导的ERK1/2激活和DNA合成。相比之下,肽对肝细胞生长因子触发的ERK1/2激活和DNA合成的影响非常有限。这些结果证明了原位电穿孔方法在研究活化受体酪氨酸激酶与ERK1/2级联的偶联中的潜力。
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Specific inhibition of growth factor-stimulated extracellular signal-regulated kinase 1 and 2 activation in intact cells by electroporation of a growth factor receptor-binding protein 2-Src homology 2 binding peptide.

Activation of the Ras pathway is central to mitogenesis by a variety of growth factors such as the epidermal growth factor, platelet-derived growth factor, or hepatocyte growth factor. Ras activation requires the function of adaptors such as growth factor receptor-binding protein 2, which can bind either directly or indirectly through Src homology 2 domains to the activated receptor. To examine the role of the Src homology 2 domain of growth factor receptor-binding protein 2 in the mitogenic response triggered by these growth factors, we introduced a peptide (PVPE-phosphono-methylphenylalanine-INQS) that can selectively bind this domain into mouse, rat, or human cells growing on conductive indium-tin oxide-coated glass by in situ electroporation. Cells were subsequently stimulated with growth factors and assessed for activation of a downstream target, extracellular signal-regulated kinase (ERK) 1/2, by probing with antibodies specific for its activated form. Electrodes and slides were configured to provide nonelectroporated control cells side by side with the electroporated ones, both growing on the same type of indium-tin oxide-coated glass surface. The data demonstrate that the peptide can cause a dramatic inhibition of epidermal growth factor or platelet-derived growth factor-mediated ERK1/2 activation and DNA synthesis in vivo, compared with its control phenylalanine-containing counterpart. In contrast, the peptide had a very limited effect on hepatocyte growth factor-triggered ERK1/2 activation and DNA synthesis. These results demonstrate the potential of the in situ electroporation approach described here in the study of the coupling of activated receptor tyrosine kinases to the ERK1/2 cascade.

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