Common Angiogenic Signaling Pathways Induced by Monomeric C - reactive protein and FGF-2 through MAPK and PI3K

Emhamed Boras, M. Slevin, W. Gilmore, L. Potempa, Sabine Matou-Nasri
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引用次数: 3

Abstract

Excessive angiogenesis (i.e. neovascularization) in atherosclerotic lesions, sites of dissociation of the inflammatory biomarker pentameric C-reactive protein (pCRP) into monomeric CRP (mCRP), represents a focus of plaque instability with haemorrhagic complications. We previously demonstrated mCRP pro-angiogenic effects on cultured aortic endothelial cells. However, mCRP effects in combination with FGF-2, pro-angiogenic factor released by activated macrophages infiltrating developing lesions, have not yet been described. Here, we examined in vitro the angiogenic capabilities of mCRP combined with FGF-2 by performing endothelial cell proliferation, migration, and differentiation including tube formation and spheroid sprouting assays. The signaling pathways were also investigated by Western blotting and all the cell-based assays were used with or without pharmacological inhibitors of mitogen-activated protein kinase (MAPK), phosphatidylinositol-3 kinase (PI3K) and I³-secretase, considered as key regulators of angiogenesis. We showed that mCRP-induced endothelial cell proliferation and migration required activation of PI3K pathway. MAPK pathway was essential in mCRP-induced endothelial cell proliferation and spheroid sprouting while I³-secretase activity was indispensable for mCRP-induced tube formation only. MAPK pathway was required in all FGF-2-stimulated angiogenic assays whereas I³-secretase slightly inhibited FGF-2 angiogenic effects. PI3K pathway was necessary for FGF-2 angiogenic activities except for cell differentiation. In most of the assays, the additive pro-angiogenic effects of mCRP combined to FGF-2 were mainly attenuated by PI3K and MAPK inhibitors. Altogether, mCRP and FGF-2 have common angiogenic signaling pathways through PI3K and MAPK. Thus, the therapeutic use of PI3K and MAPK inhibitors may inhibit this increased vascularization whilst reducing the haemorrhagic complications from unstable plaques.
单体C反应蛋白和FGF-2通过MAPK和PI3K诱导的常见血管生成信号通路
动脉粥样硬化病变中过度的血管生成(即新生血管),炎症生物标志物五聚体c反应蛋白(pCRP)解离为单体CRP (mCRP)的位点,是斑块不稳定伴出血并发症的一个焦点。我们之前证明了mCRP对培养的主动脉内皮细胞的促血管生成作用。然而,mCRP联合FGF-2的作用尚未被描述,FGF-2是由浸润发展中的病变的活化巨噬细胞释放的促血管生成因子。在这里,我们通过内皮细胞增殖、迁移和分化(包括管形成和球体发芽)试验,检测了mCRP联合FGF-2的体外血管生成能力。Western blotting还研究了信号通路,所有基于细胞的实验均使用或不使用丝裂原活化蛋白激酶(MAPK)、磷脂酰肌醇-3激酶(PI3K)和I³-分泌酶的药物抑制剂,这些药物被认为是血管生成的关键调节因子。我们发现mcrp诱导的内皮细胞增殖和迁移需要激活PI3K通路。MAPK通路在mcrp诱导的内皮细胞增殖和球状萌芽中是必不可少的,而I³-分泌酶活性仅在mcrp诱导的小管形成中必不可少。在所有FGF-2刺激的血管生成实验中都需要MAPK途径,而I³-分泌酶轻微抑制FGF-2的血管生成作用。除细胞分化外,PI3K通路是FGF-2血管生成活性所必需的。在大多数实验中,mCRP联合FGF-2的加性促血管生成作用主要被PI3K和MAPK抑制剂减弱。总之,mCRP和FGF-2通过PI3K和MAPK具有共同的血管生成信号通路。因此,治疗性使用PI3K和MAPK抑制剂可以抑制这种增加的血管化,同时减少不稳定斑块引起的出血并发症。
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