PI3Ks catalyze the phosphorylation of the inositol hydroxyls of phosphoinositide membrane components. The changes in phosphorylation of the inositides recruit proteins to the plasma membrane that initiate important signaling cascades. PI3Kα, one of the class IA PI3Ks, is highly mutated in cancers. All mutations analyzed result in an increase in enzymatic activity. The structures of this enzyme determined by X-ray diffraction, provide a framework for analyzing the possible structural effect of these mutations and their effect on the enzymatic activity. Many of the mutations occur at domain interfaces where they can affect domain interactions and relieve the inhibition of the wild-type enzyme by the nSH2 domain of p85. This mechanism is analogous to the mechanism of physiological activation by activated tyrosine-kinase receptors in which the phosphorylated tyrosine of the receptor (or their substrates) dislodges the nSH2 from its inhibitory position in the complex by competing with its binding to a loop in the helical domain. Other mutations in the kinase domain can directly affect the conformation of the catalytic site. One mutation, His1047Arg, uses a completely different mechanism: it changes the conformation of the C-terminal loop in such a way that it increases the interaction of the enzyme with the membrane, granting increased access to the phosphoinositide substrates. Taking advantage of the reliance of some cancers on the increased activity of mutated PI3Kα, will require the development of isoform-specific, mutant-specific inhibitors. The structural, biochemical and physiological data that are becoming available for PI3Ks are an important first step in this direction.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3079044PMC
http://dx.doi.org/10.1016/j.advenzreg.2010.09.013DOI Listing

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