Gregory Wiederrecht scite author profile

The immunosuppressant, rapamycin, inhibits cell growth by interfering with the function of a novel kinase, termed mammalian target of rapamycin (mTOR). The putative catalytic domain of mTOR is similar to those of mammalian and yeast phosphatidylinositol (PI) 3‐kinases. This study demonstrates that mTOR is a component of a cytokine‐triggered protein kinase cascade leading to the phosphorylation of the eukaryotic initiation factor‐4E (eIF‐4E) binding protein, PHAS‐1, in activated T lymphocytes. This event promotes G1 phase progression by stimulating eIF‐4E‐dependent translation initiation. A mutant YAC‐1 T lymphoma cell line, which was selected for resistance to the growth‐inhibitory action of rapamycin, was correspondingly resistant to the suppressive effect of this drug on PHAS‐1 phosphorylation. In contrast, the PI 3‐kinase inhibitor, wortmannin, reduced the phosphorylation of PHAS‐1 in both rapamycin‐sensitive and ‐resistant T cells. At similar drug concentrations (0.1–1 microM), wortmannin irreversibly inhibited the serine‐specific autokinase activity of mTOR. The autokinase activity of mTOR was also sensitive to the structurally distinct PI 3‐kinase inhibitor, LY294002, at concentrations (1–30 microM) nearly identical to those required for inhibition of the lipid kinase activity of the mammalian p85‐p110 heterodimer. These studies indicate that the signaling functions of mTOR, and potentially those of other high molecular weight PI 3‐kinase homologs, are directly affected by cellular treatment with wortmannin or LY294002.

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Isolation of a Protein Target of the FKBP12-Rapamycin Complex in Mammalian Cells

Sabers

Martin

Brunn

et al. 1995

Journal of Biological Chemistry

805

483

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The immunosuppressive drug, rapamycin, interferes with an undefined signaling pathway required for the progression of G1-phase T-cells into S phase. Genetic analyses in yeast indicate that binding of rapamycin to its intracellular receptor, FKBP12, generates a toxic complex that inhibits cell growth in G1 phase. These analyses implicated two related proteins, TOR1 and TOR2, as targets of the FKBP12-rapamycin complex in yeast. In this study, we have used a glutathione S-transferase (GST)-FKBP12-rapamycin affinity matrix to isolate putative mammalian targets of rapamycin (mTOR) from tissue extracts. In the presence of rapamycin, immobilized GST-FKBP12 specifically precipitates similar high molecular mass proteins from both rat brain and murine T-lymphoma cell extracts. Binding experiments performed with rapamycin-sensitive and -resistant mutant clones derived from the YAC-1 T-lymphoma cell line demonstrate that the GST-FKBP12-rapamycin complex recovers significantly lower amounts of the candidate mTOR from rapamycin-resistant cell lines. The latter results suggest that mTOR is a relevant target of rapamycin in these cells. Finally, we report the isolation of a full-length mTOR cDNA that encodes a direct ligand for the FKBP12-rapamycin complex. The deduced amino acid sequence of mTOR displays 42 and 45% identity to those of yeast TOR1 and TOR2, respectively. These results strongly suggest that the FKBP12-rapamycin complex interacts with homologous ligands in yeast and mammalian cells and that the loss of mTOR function is directly related to the inhibitory effect of rapamycin on G1- to S-phase progression in T-lymphocytes and other sensitive cell types.

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Immunopharmacology of Rapamycin

Abraham

Wiederrecht

1996

Annu. Rev. Immunol.

599

455

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The potent immunosuppressive drugs FK506 and rapamycin interfere with signal transduction pathways required for T cell activation and growth. The distinct inhibitory effects of these drugs on the T cell activation program are mediated through the formation of pharmacologically active complexes with members of a family of intracellular receptors termed the FK506 binding proteins (FKBPs). The FKBP12.FK506 complex specifically binds to and inhibits calcineurin, a signaling protein required for transcriptional activation of the interleukin (IL)-2 gene in response to T cell antigen receptor engagement. The FKBP12. rapamycin complex interacts with a recently defined target protein termed the mammalian target of rapamycin (mTOR). Accumulating data suggest that mTOR functions in a previously unrecognized signal transduction pathway required for the progression of IL-2-stimulated T cells from G1 into the S phase of the cell cycle. Here we review the immunopharmacology of rapamycin, with particular emphasis on the characterization of mTOR.

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