Regulation of the p85/p110 phosphatidylinositol 3′-kinase:: Stabilization and inhibition of the p110α catalytic subunit by the p85 regulatory subunit

We propose a novel model for the regulation of the p85/p110 alpha phosphatidylinositol 3'-kinase. In insect cells, the p110 alpha catalytic subunit is active as a monomer but its activity is decreased by coexpression with the p85 regulatory subunit. Similarly, the lipid kinase activity of recombinant glutathione S-transferase (GST)-p110 alpha is reduced by 65 to 85% upon in vitro reconstitution with p85. Incubation of p110 alpha/p85 dimers with phosphotyrosyl peptides restored activity, but only to the level of monomeric p110 alpha. These data show that the binding of phosphoproteins to the SH2 domains of p85 activates the p85/p110 alpha aimers by inducing a transition from an inhibited to a disinhibited state. In contrast, monomeric p110 had little activity in HEK 293T cells, and its activity was increased 15- to 20-fold by coexpression with p85. However, this apparent requirement for p85 was eliminated by the addition of a bulky tag to the N terminus of p110 alpha or by the growth of the HEK 293T cells at 30 degrees C. These nonspecific interventions mimicked the effects of p85 on p110 alpha, Suggesting that the regulatory subunit acts by stabilizing the overall conformation of the catalytic subunit rather than by inducing a specific activated conformation. This stabilization was directly demonstrated in metabolically labeled HEK 293T cells, in which p85 increased the half-life of p110. Furthermore, p85 protected p110 from thermal inactivation in vitro. Importantly, when we examined the effect of p85 on GST-p110 alpha in mammalian cells at 30 degrees C, culture conditions that stabilize the catalytic subunit and that are similar to the conditions used for insect cells, we found that p85 inhibited p110 alpha. Thus, we have experimentally distinguished two effects of p85 on p110 alpha; conformational stabilization of the catalytic subunit and inhibition of its lipid kinase activity. Our data reconcile the apparent conflict between previous studies of insect versus mammalian cells and show that p110 alpha is both stabilized and inhibited by dimerization with p85.