Chiaradonna F, Fontana L, Iavarone C, Carriero M V, Scholz G, Barone M V, Stoppelli M P
International Institute of Genetics and Biophysics, CNR, Via Marconi 10, 80125 Naples.
EMBO J. 1999 Jun 1;18(11):3013-23. doi: 10.1093/emboj/18.11.3013.
Anchorage-independent myelomonocytic cells acquire adherence within minutes of differentiation stimuli, such as the proteolytically inactive N-terminal fragment of urokinase binding to its cognate glycosylphosphatidylinositol (GPI)-anchored receptor. Here, we report that urokinase-treated differentiating U937 monocyte-like cells exhibit a rapid and transient inhibition of p56/59(hck) and p55(fgr) whereas no changes in the activity of other Src family kinases, such as p53/56(lyn) and p59(fyn) were observed. U937 transfectants expressing a kinase-defective (Lys267 to Met) p56/59(hck) variant exhibit enhanced adhesiveness and a marked F-actin redistribution in thin protruding structures. Conversely, urokinase as well as expression of wild-type or constitutively active (Tyr499 to Phe) p56/59(hck) stimulates the directional migration of uninduced U937 cells. Accordingly, expression of constitutively active or kinase inactive p56/59(hck) selectively prevents urokinase receptor-dependent induction of either adhesion or motility, indicating that a specific activation state of p56/59(hck) is required for each cell response. In conclusion, modulation of the intracellular p56/59(hck) tyrosine kinase activity switches cell motility towards adherence, providing a mutually exclusive mechanism to regulate these properties during monocyte/macrophage differentiation in vivo.
不依赖贴壁的骨髓单核细胞在分化刺激(如无蛋白水解活性的尿激酶N端片段与其同源糖基磷脂酰肌醇(GPI)锚定受体结合)后几分钟内即可获得贴壁能力。在此,我们报告,经尿激酶处理的正在分化的U937单核细胞样细胞对p56/59(hck)和p55(fgr)表现出快速且短暂的抑制作用,而未观察到其他Src家族激酶(如p53/56(lyn)和p59(fyn))的活性有变化。表达激酶缺陷型(赖氨酸267突变为甲硫氨酸)p56/59(hck)变体的U937转染子表现出增强的黏附性以及在细的突出结构中有明显的F-肌动蛋白重新分布。相反,尿激酶以及野生型或组成型活性(酪氨酸499突变为苯丙氨酸)p56/59(hck)的表达刺激未诱导的U937细胞的定向迁移。因此,组成型活性或激酶无活性的p56/59(hck)的表达选择性地阻止了尿激酶受体依赖性的黏附或运动诱导,表明每种细胞反应都需要p56/59(hck)的特定激活状态。总之,细胞内p56/59(hck)酪氨酸激酶活性的调节将细胞运动性转变为黏附性,为体内单核细胞/巨噬细胞分化过程中调节这些特性提供了一种相互排斥的机制。