Rordorf-Nikolic T, Van Horn D J, Chen D, White M F, Backer J M
Department of Molecular Pharmacology, Albert Einstein College of Medicine, Bronx, New York 10461.
J Biol Chem. 1995 Feb 24;270(8):3662-6. doi: 10.1074/jbc.270.8.3662.
Phosphatidylinositol 3'-kinase (PI 3'-kinase) is activated in insulin-stimulated cells by the binding of the SH2 domains in its 85-kDa regulatory subunit to insulin receptor substrate-1 (IRS-1). We have previously shown that both tyrosyl-phosphorylated IRS-1 and mono-phosphopeptides containing a single YXXM motif activate PI 3'-kinase in vitro. However, activation by the monophosphopeptides was significantly less potent than activation by the multiply phosphorylated IRS-1. We now show that the increased potency of PI 3'-kinase activation by IRS-1 relative to phosphopeptide is not due to tertiary structural features IRS-1, as PI 3'-kinase is activated normally by denatured, reduced, and carboxymethylated IRS-1. Furthermore, activation of PI 3'-kinase by bis-phosphorylated peptides containing two YXXM motifs is 100-fold more potent than the corresponding mono-phosphopeptides and similar to activation by IRS-1. These data suggest that tyrosyl-phosphorylated IRS-1 or bis-phosphorylated peptides bind simultaneously to both SH2 domains of p85. However, these data cannot differentiate between an activation mechanism that requires two-site occupancy for maximal activity as opposed to one in which bivalent binding enhances the occupancy of a single activating site. To distinguish between these possibilities, we produced recombinant PI 3'-kinase containing either wild-type p85 or p85 mutated in its N-terminal, C-terminal, or both SH2 domains. We find that mutation of either SH2 domains significantly reduced phosphopeptide binding and decreased PI 3'-kinase activation by 50%, whereas mutation of both SH2 domains completely blocked binding and activation. These data provide the first direct evidence that full activation of PI 3'-kinase by tyrosylphosphorylated proteins requires occupancy of both SH2 domains in p85.
磷脂酰肌醇3'-激酶(PI 3'-激酶)在胰岛素刺激的细胞中,通过其85-kDa调节亚基中的SH2结构域与胰岛素受体底物-1(IRS-1)结合而被激活。我们之前已经表明,酪氨酸磷酸化的IRS-1和含有单个YXXM基序的单磷酸肽在体外均可激活PI 3'-激酶。然而,单磷酸肽的激活效力明显低于多重磷酸化的IRS-1。我们现在表明,相对于磷酸肽,IRS-1激活PI 3'-激酶的效力增加并非由于IRS-1的三级结构特征,因为PI 3'-激酶可被变性、还原和羧甲基化的IRS-1正常激活。此外,含有两个YXXM基序的双磷酸化肽对PI 3'-激酶的激活效力比相应的单磷酸肽高100倍,且与IRS-1的激活效力相似。这些数据表明,酪氨酸磷酸化的IRS-1或双磷酸化肽同时结合到p85的两个SH2结构域上。然而,这些数据无法区分需要两个位点占据以实现最大活性的激活机制与二价结合增强单个激活位点占据的机制。为了区分这些可能性,我们制备了含有野生型p85或其N端、C端或两个SH2结构域均发生突变的p85的重组PI 3'-激酶。我们发现,任一SH2结构域的突变均显著降低磷酸肽结合,并使PI 3'-激酶激活降低50%,而两个SH2结构域均突变则完全阻断结合和激活。这些数据提供了首个直接证据,即酪氨酸磷酸化蛋白对PI 3'-激酶的完全激活需要占据p85中的两个SH2结构域。
