Identification and characterization of a new oncogene derived from the regulatory subunit of phosphoinositide 3-kinase

Abstract: 6 Corresponding author p85/p110 phosphoinositide 3-kinase (PI3K) is a heterodimer composed of a p85-regulatory and a p110-catalytic subunit, which is involved in a variety of cellular responses including cytoskeletal organization, cell survival and proliferation. We describe here the cloning and characterization of p65-PI3K, a mutant of the regulatory subunit of PI3K, which includes the initial 571 residues of the wild type p85α-protein linked to a region conserved in the eph tyrosine kinase receptor family. W… Show more

“…This complementation may reflect that both isoforms regulate this transition physiologically or that enhanced p65 PI3K -induced PI3K activity artificially compensates for the lack of p110␥. The p65 PI3K expression nonetheless enhances basal 3-polyphosphoinositide levels only moderately and requires stimulation of a tyrosine kinase-coupled receptor to enhance PI3K activity significantly (22,23). Pre-TCR, a receptor coupled to Lck tyrosine kinase (5,35), thus may activate class IA PI3K isoforms physiologically, thereby contributing to pre-TCR-mediated differentiation, as observed in p65 PI3K Tg mice.…”

“…In addition, to examine the role of the p85/p110 PI3K isoforms (class IA) in T cell development, we analyzed the phenotype of mice expressing an activating mutation of the p85 regulatory subunit, p65 PI3K , in T cells. This mutant regulatory subunit associates with the p110 catalytic subunit, moderately increasing basal PI-3,4,5-P 3 levels and significantly enhancing the transient PI3K activation that follows receptor activation (22,23). p65 PI3K potentially acts on all three class IA catalytic subunits, constituting a useful tool for the study of the role of class IA p85/p110 PI3K isoforms in T cell development.…”

Phosphatidylinositol 3-Kinase Regulates the CD4/CD8 T Cell Differentiation Ratio

“…This complementation may reflect that both isoforms regulate this transition physiologically or that enhanced p65 PI3K -induced PI3K activity artificially compensates for the lack of p110␥. The p65 PI3K expression nonetheless enhances basal 3-polyphosphoinositide levels only moderately and requires stimulation of a tyrosine kinase-coupled receptor to enhance PI3K activity significantly (22,23). Pre-TCR, a receptor coupled to Lck tyrosine kinase (5,35), thus may activate class IA PI3K isoforms physiologically, thereby contributing to pre-TCR-mediated differentiation, as observed in p65 PI3K Tg mice.…”

“…In addition, to examine the role of the p85/p110 PI3K isoforms (class IA) in T cell development, we analyzed the phenotype of mice expressing an activating mutation of the p85 regulatory subunit, p65 PI3K , in T cells. This mutant regulatory subunit associates with the p110 catalytic subunit, moderately increasing basal PI-3,4,5-P 3 levels and significantly enhancing the transient PI3K activation that follows receptor activation (22,23). p65 PI3K potentially acts on all three class IA catalytic subunits, constituting a useful tool for the study of the role of class IA p85/p110 PI3K isoforms in T cell development.…”

Phosphatidylinositol 3-Kinase Regulates the CD4/CD8 T Cell Differentiation Ratio

“…Loss of expression of this phosphatase results in constitutive activation of Akt signaling [8][9][10][11]. Additional mechanisms which activate PI3K/Akt/mTOR signaling include gain of function mutation of receptor tyrosine kinase (e.g., c-Kit), mutations of an oncogene (e.g., Ras), active mutations in the p110 and p85 subunits of PI3K, and Akt overexpression [12][13][14].…”

Longitudinal inhibition of PI3K/Akt/mTOR signaling by LY294002 and rapamycin induces growth arrest of adult T-cell leukemia cells

“…Expression of a constitutive active form of bovine p110a is transforming in rodent ®broblasts (Klippel et al, 1998). An oncogenic form of type I PI3K, which involves a mutated form of the regulatory subunit p85a, has also been described in mice (Jimenez et al, 1998). Expression of this allele associates with endogenous p110 and increases its activity in a constitutive manner, leading to cell transformation.…”

A specific function for phosphatidylinositol 3-kinase α (p85α-p110α) in cell survival and for phosphatidylinositol 3-kinase β (p85α-p110β) in de novo DNA synthesis of human colon carcinoma cells