Lucas Luisa, Penalva Verónica, Ramírez de Molina Ana, Del Peso Luis, Lacal Juan Carlos
Instituto de Investigaciones Biomedicas, CSIC, Arturo Duperier 4, 28029 Madrid, Spain.
Int J Oncol. 2002 Sep;21(3):477-85.
Transformation by ras oncogenes induces the deregulation of intracellular signalling cascades that are critical elements in cell growth control. Ras proteins are molecular switches with the ability to interact and activate several effector molecules. Among those, Raf-1 kinase, PI3K and Ral-GDS are the best characterised. Raf activates the mitogenic MEK/ERK kinases pathway, while PI3K regulates the PKB/Akt cascade, involved in the control of proliferation, metabolism and apoptotic responses. Finally, Ral-GDS belongs to a family of guanine nucleotide exchange factors that activate Ral GTPases. While Raf and PI3K have emerged as critical elements in regulating cell growth and apoptosis, little is known about the role of the Ral-GDS family. We have previously reported that Ras proteins are critical elements in the regulation of phospholipase D (PLD), a proposed target for the Ral-GDS/RalA pathway. Physiological regulation of PLD by growth factors requires the simultaneous activation of the endogenous, wild-type Ras proteins, and a PKC-dependent mechanism. Transformation by ras oncogenes induces drastic alterations in PLD activity and the usual response to external stimuli, through a PKC-independent mechanism. Here we provide further evidence on the mechanisms by which oncogenic Ras proteins induces the deregulation of PLD and here we try to identify the specific effectors involved. A complex system for PLD regulation is unravelled which implies the existence of two positive regulatory pathways, mediated by Ral-GDS and PI3K, and two negative feedback mechanisms mediated by Raf and Ral-GDS. These results strongly support participation of PLD in Ras-mediated signalling. Furthermore, we provide evidence that oncogenic Ras proteins constitutively activate PLD by mechanisms different to those used by normal Ras proteins.
ras癌基因介导的转化会导致细胞内信号级联反应失调,而这些信号级联反应是细胞生长调控中的关键要素。Ras蛋白是具有与多种效应分子相互作用并激活其能力的分子开关。其中,Raf-1激酶、PI3K和Ral-GDS的特征最为明确。Raf激活有丝分裂原性的MEK/ERK激酶途径,而PI3K调节PKB/Akt级联反应,该级联反应参与增殖、代谢和凋亡反应的调控。最后,Ral-GDS属于激活Ral GTP酶的鸟嘌呤核苷酸交换因子家族。虽然Raf和PI3K已成为调节细胞生长和凋亡的关键要素,但对于Ral-GDS家族的作用却知之甚少。我们之前报道过,Ras蛋白是磷脂酶D(PLD)调控中的关键要素,PLD是Ral-GDS/RalA途径的一个假定靶点。生长因子对PLD的生理调节需要内源性野生型Ras蛋白的同时激活以及一种依赖PKC的机制。ras癌基因介导的转化通过一种不依赖PKC的机制,导致PLD活性以及对外部刺激的正常反应发生剧烈改变。在此,我们提供了关于致癌Ras蛋白诱导PLD失调机制的进一步证据,并试图确定其中涉及的特定效应分子。我们揭示了一个复杂的PLD调控系统,这意味着存在两条由Ral-GDS和PI3K介导的正调控途径,以及两条由Raf和Ral-GDS介导的负反馈机制。这些结果有力地支持了PLD参与Ras介导的信号传导。此外,我们提供证据表明,致癌Ras蛋白通过与正常Ras蛋白不同的机制持续激活PLD。
