Abstract
AbstractRibosomal protein S6 kinase 1 (S6K1), a major downstream effector molecule of mTORC1, regulates cell growth and proliferation by modulating protein translation and ribosome biogenesis. We have recently identified eIF4E as an intermediate in transducing signals from mTORC1 to S6K1 and further demonstrated that the role of mTORC1 is restricted to inducing eIF4E phosphorylation and interaction with S6K1.This interaction relieves S6K1 auto-inhibition and facilitates its hydrophobic motif (HM) phosphorylation and activation as a consequence. These observations underscore a possible involvement of mTORC1independent kinase in mediating HM phosphorylation. Here, we report mTORC2 as an in-vivo HM kinase of S6K1. We show that rapamycin resistant S6K1 truncation mutant ΔNHΔCT, continues to display HM phosphorylation with selective sensitivity toward torin-1. We also show that HM phosphorylation of wildtype S6K1and ΔNHΔCT depends on the presence of mTORC2 regulatory subunit-rictor. Furthermore, truncation mutagenesis analysis highlights the involvement of a conserved 19 amino acid stretch of S6K1 in mediating mTORC2 dependent HM phosphorylation. We finally show that deletion of this amino acid stretch leads to complete loss of HM phosphorylation regardless of the presence of functional TOS motif. Our data identifies mTORC2 as a physiological HM kinase that can activate S6K1 after its auto-inhibition is overcome by mTORC1. We, therefore, propose a novel mechanism for S6K1 regulation where mTOR complex 1 and 2 act in tandem to activate the enzyme.
Publisher
Cold Spring Harbor Laboratory