Linda Kessler scite author profile

KRAS was recently identified to be potentially druggable by allele-specific covalent targeting of Cys-12 in vicinity to an inducible allosteric switch II pocket (S-IIP). Success of this approach requires active cycling of KRAS between its active-GTP and inactive-GDP conformations as accessibility of the S-IIP is restricted only to the GDP-bound state. This strategy proved feasible for inhibiting mutant KRAS in vitro; however, it is uncertain whether this approach would translate to in vivo. Here, we describe structure-based design and identification of ARS-1620, a covalent compound with high potency and selectivity for KRAS. ARS-1620 achieves rapid and sustained in vivo target occupancy to induce tumor regression. We use ARS-1620 to dissect oncogenic KRAS dependency and demonstrate that monolayer culture formats significantly underestimate KRAS dependency in vivo. This study provides in vivo evidence that mutant KRAS can be selectively targeted and reveals ARS-1620 as representing a new generation of KRAS-specific inhibitors with promising therapeutic potential.

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Selective Inhibition of Oncogenic KRAS Output with Small Molecules Targeting the Inactive State

Patricelli

Janes

et al. 2016

637

669

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KRAS gain-of-function mutations occur in approximately 30% of all human cancers. Despite more than 30 years of KRAS-focused research and development efforts, no targeted therapy has been discovered for cancers with KRAS mutations. Here, we describe ARS-853, a selective, covalent inhibitor of KRAS G12C that inhibits mutant KRAS-driven signaling by binding to the GDP-bound oncoprotein and preventing activation. Based on the rates of engagement and inhibition observed for ARS-853, along with a mutant-specifi c mass spectrometry-based assay for assessing KRAS activation status, we show that the nucleotide state of KRAS G12C is in a state of dynamic fl ux that can be modulated by upstream signaling factors. These studies provide convincing evidence that the KRAS G12C mutation generates a "hyperexcitable" rather than a "statically active" state and that targeting the inactive, GDP-bound form is a promising approach for generating novel anti-RAS therapeutics. SIGNIFICANCE:A cell-active, mutant-specifi c, covalent inhibitor of KRAS G12C is described that targets the GDP-bound, inactive state and prevents subsequent activation. Using this novel compound, we demonstrate that KRAS G12C oncoprotein rapidly cycles bound nucleotide and responds to upstream signaling inputs to maintain a highly active state. Cancer Discov; 6(3); 316-29.

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A Small, Nonpeptidyl Mimic of Granulocyte-Colony- Stimulating Factor

Tian

Lamb

King

et al. 1998

Science

157

140

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A nonpeptidyl small molecule SB 247464, capable of activating granulocyte-colony-stimulating factor (G-CSF) signal transduction pathways, was identified in a high-throughput assay in cultured cells. Like G-CSF, SB 247464 induced tyrosine phosphorylation of multiple signaling proteins and stimulated primary murine bone marrow cells to form granulocytic colonies in vitro. It also elevated peripheral blood neutrophil counts in mice. The extracellular domain of the murine G-CSF receptor was required for the activity of SB 247464, suggesting that the compound acts by oligomerizing receptor chains. The results indicate that a small molecule can activate a receptor that normally binds a relatively large protein ligand.

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Selective Inhibition of Phosphoinositide 3-Kinase p110α Preserves Lymphocyte Function*

Yea

Oak

et al. 2013

Journal of Biological Chemistry

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Background:The class IA PI3K isoform p110␣ is a promising drug target in cancer therapy yet its role in lymphocytes is not known. Results: Lymphocyte function was minimally affected by p110␣ inhibition both in vitro and in vivo. Conclusion: Selective inhibition of p110␣ preserves lymphocyte function. Significance: The study raises confidence that selective p110␣ inhibitors in cancer therapy will not be immunosuppressive.

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Linda Kessler

Targeting KRAS Mutant Cancers with a Covalent G12C-Specific Inhibitor

Selective Inhibition of Oncogenic KRAS Output with Small Molecules Targeting the Inactive State

A Small, Nonpeptidyl Mimic of Granulocyte-Colony- Stimulating Factor

Selective Inhibition of Phosphoinositide 3-Kinase p110α Preserves Lymphocyte Function*

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