Overexpression of p101 activates PI3Kgamma signaling in T cells and contributes to cell survival.

p101, the regulatory subunit of phosphatidylinositol-3-kinase-gamma (PI3Kgamma), was recently reported as a common site of retroviral insertion in T-cell lymphomas induced in mice by MoFe2-MuLV, a unique recombinant gammaretrovirus. The common interruption of p101 by retroviral integration suggests that the locus encodes an oncogene whose altered expression is related to the induction of T-cell malignancy. To examine a possible role in the malignant process, p101 was overexpressed in human T-cell lines Molt-4 and Jurkat. Transient overexpression of p101 induced apoptosis in recipient cells; however, stable expression could be established in cells that expressed moderate levels of p101. Constitutive p101 overexpression in those cells conferred significant protection against ultraviolet-induced apoptosis. Protection against apoptotic induction was attributed to p101-mediated activation of the Akt pathway. Constitutive overexpression of p101 enhanced the activity of p110gamma and further sensitized it to activation upon stimulation of G protein-coupled receptor. These findings are the first to implicate altered expression of p101 in malignancy, specifically in T-cell lymphoma. The findings further provide insight into the regulation of p110gamma, indicating that the stoichiometry of p110gamma and p101 are important in regulating PI3Kgamma signaling.