Taebo Sim scite author profile

The mammalian target of rapamycin (mTOR) kinase is the catalytic subunit of two functionally distinct complexes, mTORC1 and mTORC2, that coordinately promote cell growth, proliferation, and survival. Rapamycin is a potent allosteric mTORC1 inhibitor with clinical applications as an immunosuppressant and anti-cancer agent. Here we find that Torin1, a highly potent and selective ATP-competitive mTOR inhibitor that directly inhibits both complexes, impairs cell growth and proliferation to a far greater degree than rapamycin. Surprisingly, these effects are independent of mTORC2 inhibition and are instead because of suppression of rapamycin-resistant functions of mTORC1 that are necessary for cap-dependent translation and suppression of autophagy. These effects are at least partly mediated by mTORC1-dependent and rapamycin-resistant phosphorylation of 4E-BP1. Our findings challenge the assumption that rapamycin completely inhibits mTORC1 and indicate that direct inhibitors of mTORC1 kinase activity may be more successful than rapamycin at inhibiting tumors that depend on mTORC1.

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Targeting transcription regulation in cancer with a covalent CDK7 inhibitor

Kwiatkowski

Zhang

Rahl

et al. 2014

Nature

740

937

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Tumor oncogenes include transcription factors that co-opt the general transcriptional machinery to sustain the oncogenic state 1 , but direct pharmacological inhibition of transcription factors has thus far proven difficult 2 . However, the transcriptional machinery contains various enzymatic co-factors that can be targeted for development of new therapeutic candidates 3 , including cyclin-dependent kinases (CDKs) 4 . Here we present the discovery and characterization of the first covalent CDK7 inhibitor, THZ1, which has the unprecedented ability to target a remote cysteine residue located outside of the canonical kinase domain, providing an unanticipated means of achieving selectivity for CDK7. Cancer cell line profiling indicates that a subset of cancer cell lines, including T-ALL, exhibit exceptional sensitivity to THZ1. Genome-wide analysis in Jurkat T-ALL shows that THZ1 disproportionally affects transcription of RUNX1 and suggests that sensitivity to THZ1 may be due to vulnerability conferred by the RUNX1 super-enhancer and this transcription factor’s key role in the core transcriptional regulatory circuitry of these tumor cells. Pharmacological modulation of CDK7 kinase activity may thus provide an approach to identify and treat tumor types exhibiting extreme dependencies on transcription for maintenance of the oncogenic state.

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Targeting Bcr–Abl by combining allosteric with ATP-binding-site inhibitors

Zhang

Adrián

Jahnke

et al. 2010

Nature

545

573

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SUMMARY In an effort to find new pharmacological modalities to overcome resistance to ATP-site inhibitors of Bcr-Abl, we recently reported the discovery of GNF-2, a selective allosteric Bcr-Abl inhibitor. Here, using solution NMR, X-ray crystallography, mutagenesis and hydrogen exchange mass spectrometry we demonstrate that GNF-2 binds to the myristate binding site of Abl, leading to changes in the structural dynamics of the ATP-binding site. GNF-5, an analog of GNF-2 having improved pharmacokinetic properties, when utilized in combination with the ATP-competitive inhibitors imatinib or nilotinib, suppressed the emergence of resistance mutations in vitro, displayed additive inhibitory activity in biochemical and cellular assays against T315I Bcr-Abl and displayed in vivo efficacy against the recalcitrant T315I Bcr-Abl mutant in a murine bone-marrow transplantation model. These results demonstrate that therapeutically relevant inhibition of Bcr-Abl activity can be achieved using inhibitors that bind to the myristate binding site and that combining allosteric and ATP-competitive inhibitors can overcome resistance to either agent alone.

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Taebo Sim

An ATP-competitive Mammalian Target of Rapamycin Inhibitor Reveals Rapamycin-resistant Functions of mTORC1

Targeting transcription regulation in cancer with a covalent CDK7 inhibitor

Targeting Bcr–Abl by combining allosteric with ATP-binding-site inhibitors

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