Phosphorylation of eEF2 prevents functional binding to the ribosome and delays the elongation step, thereby terminating selleck chemicals translation. PI3Ks have previously been implicated in the regulation of the eEF2 downstream of proliferative signals, however whether specific PI3K isoforms or all PI3K isoforms regu late eEF2 signaling has not yet been determined. Regulation of the eEF2 activity by PI3K�� may be the result of multiple molecular mechanisms. Firstly, PI3K�� may activate the eEF2 kinase through the mTOR P70S6K pathway, which has been shown as a key path way regulating eEF2 activity. Secondly, PI3K�� may reduce the rate of eEF2 dephosphorylation through inhi biting the activity of a protein phosphatase such as pro tein phosphatase 2A. The first protein kinase substrate of PI3K��has been identified recently.
PI3K��phosphorylates SET, an endogenous inhibitor of PP2A, on two serine residues. eEF2 Inhibitors,Modulators,Libraries might therefore be a direct or indirect substrate of PI3K��. Cells can respond Inhibitors,Modulators,Libraries to growth factors by either migrat ing or proliferating, but not both at the same time, a phenomenon termed migration proliferation dichot omy, This is not only observed in cancer progres sion but also during wound healing and developmentand the underlying mechanism remains unknown. The pro posed physiological basis for this phenomenon is that directional cell migration occurs along an increasing lig and gradient until migrating cells reach a zone in which they start dividing as a result of the presence of ligands that regulate proliferation. Thus limited protein synthe sis occurs in migrating cells, which diverts energy to the process of migration.
Inhibitors,Modulators,Libraries However, when cells stop migrat ing and start proliferating, protein synthesis is necessar ily upregulated. Our results support the view that reduced proliferation is an integral part of migration and, more specifically, that in metastatic breast cancer cells the initiation of both processes might be regulated by PI3K��. It should be noted that the data presented in this manuscript Inhibitors,Modulators,Libraries have been obtained using one breast cancer cell line and further experimentation will be required to determine the generality of our observation. This would include examining different cell lines and ideally, in cells from clinical tissue samples. With Inhibitors,Modulators,Libraries respect to the latter, unfortunately at present there is no means by which to identify cells in tissues in which IGF1RCXCR4 transactivation occurs.
However, ultimately, an improved understanding of the molecular mechanisms underlying IGF1RCXCR4 trans activation, including the role of PI3K signal transduction pathways, in the progression of breast cancer metastasis and invasion may things lead to development of more effective diagnostic and therapeutic strategies. We have also observed that phosphorylation of eEF2 occurs upon stimulation of MDA MB 231 cells with CXCL12 in a PI3K�� dependent manner.