MacDougall L K, Domin J, Waterfield M D
Ludwig Institute for Cancer Research, University College Branch, London, UK.
Curr Biol. 1995 Dec 1;5(12):1404-15. doi: 10.1016/s0960-9822(95)00278-8.
Mammalian phosphoinositide 3-kinases (PI 3-kinases) are involved in receptor-mediated signal transduction and have been implicated in processes such as transformation and mitogenesis through their role in elevating cellular phosphatidylinositol (3,4,5)-trisphosphate. Additionally, a PI 3-kinase activity which generates phosphatidylinositol 3-phosphate has been shown to be required for protein trafficking in yeast.
We have identified a family of three distinct PI 3-kinases in Drosophila, using an approach based on the polymerase chain reaction to amplify a region corresponding to the conserved catalytic domain of PI 3-kinases. One of these family members, PI3K_92D, is closely related to the prototypical PI 3-kinase, p110 alpha; PI3K_59F is homologous to Vps34p, whereas the third, PI3K_68D, is a novel PI 3-kinase which is widely expressed throughout the Drosophila life cycle. The PI3K_68D cDNA encodes a protein of 210 kDa, which lacks sequences implicated in linking p110 PI 3-kinases to p85 adaptor proteins, but contains an amino-terminal proline-rich sequence, which could bind to SH3 domains, and a carboxy-terminal C2 domain. Biochemical analyses demonstrate that PI3K_68D has a novel substrate specificity in vitro, restricted to phosphatidylinositol and phosphatidylinositol 4-phosphate, and is unable to phosphorylate phosphatidylinositol (4,5)-bisphosphate, the implied in vivo substrate for p110.
A family of PI 3-kinases in Drosophila, including a novel class represented by PI3K_68D, is described. PI3K_68D has the potential to bind to signalling molecules containing SH3 domains, lacks p85-adaptor-binding sequences, has a Ca(2+)-independent phospholipid-binding domain and displays a restricted in vitro substrate specificity, so it could define a novel signal transduction pathway.
哺乳动物磷酸肌醇3激酶(PI 3激酶)参与受体介导的信号转导,通过其在提高细胞磷脂酰肌醇(3,4,5)-三磷酸中的作用,已涉及诸如转化和有丝分裂等过程。此外,已表明产生磷脂酰肌醇3-磷酸的PI 3激酶活性是酵母中蛋白质运输所必需的。
我们使用基于聚合酶链反应的方法扩增对应于PI 3激酶保守催化结构域的区域,在果蝇中鉴定出一个由三种不同PI 3激酶组成的家族。这些家族成员之一PI3K_92D与原型PI 3激酶p110α密切相关;PI3K_59F与Vps34p同源,而第三个PI3K_68D是一种新型PI 3激酶,在果蝇生命周期中广泛表达。PI3K_68D cDNA编码一种210 kDa的蛋白质,该蛋白质缺乏将p110 PI 3激酶与p85衔接蛋白连接的序列,但包含一个氨基末端富含脯氨酸的序列,该序列可与SH3结构域结合,以及一个羧基末端C2结构域。生化分析表明,PI3K_68D在体外具有新的底物特异性,仅限于磷脂酰肌醇和磷脂酰肌醇4-磷酸,并且不能磷酸化磷脂酰肌醇(4,5)-二磷酸,这是p110在体内的假定底物。
描述了果蝇中的一个PI 3激酶家族,包括以PI-3K_68D为代表的新类别。PI3K_68D有可能与含有SH3结构域的信号分子结合,缺乏p85衔接蛋白结合序列,具有不依赖Ca(2+)的磷脂结合结构域,并显示出有限的体外底物特异性,因此它可能定义了一条新的信号转导途径。
