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Literature DB >> 28062402

The RAS-Effector Interaction as a Drug Target.

Adam B Keeton^1,2, E Alan Salter³, Gary A Piazza^4,2.

Abstract

About a third of all human cancers harbor mutations in one of the K-, N-, or HRAS genes that encode an abnormal RAS protein locked in a constitutively activated state to drive malignant transformation and tumor growth. Despite more than three decades of intensive research aimed at the discovery of RAS-directed therapeutics, there are no FDA-approved drugs that are broadly effective against RAS-driven cancers. Although RAS proteins are often said to be "undruggable," there is mounting evidence suggesting it may be feasible to develop direct inhibitors of RAS proteins. Here, we review this evidence with a focus on compounds capable of inhibiting the interaction of RAS proteins with their effectors that transduce the signals of RAS and that drive and sustain malignant transformation and tumor growth. These reports of direct-acting RAS inhibitors provide valuable insight for further discovery and development of clinical candidates for RAS-driven cancers involving mutations in RAS genes or otherwise activated RAS proteins. Cancer Res; 77(2); 221-6. ©2017 AACR. ©2017 American Association for Cancer Research.

Entities: CellLine Chemical Disease Gene Mutation Species

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Year: 2017 PMID： 28062402 PMCID： PMC5243175 DOI： 10.1158/0008-5472.CAN-16-0938

Source DB: PubMed Journal: Cancer Res ISSN： 0008-5472 Impact factor: 12.701

35 in total

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Review 2. The Ras superfamily at a glance.

Authors: Krister Wennerberg; Kent L Rossman; Channing J Der
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Review 3. Peptide therapeutics: current status and future directions.

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Journal: Drug Discov Today Date: 2014-10-17 Impact factor: 7.851

Review 4. Drugging the undruggable RAS: Mission possible?

Authors: Adrienne D Cox; Stephen W Fesik; Alec C Kimmelman; Ji Luo; Channing J Der
Journal: Nat Rev Drug Discov Date: 2014-10-17 Impact factor: 84.694

5. Inhibition of cell transformation by sulindac sulfide is confined to specific oncogenic pathways.

Authors: Manish Gala; Ronggai Sun; Vincent W Yang
Journal: Cancer Lett Date: 2002-01-10 Impact factor: 8.679

6. Metal-bis(2-picolyl)amine complexes as state 1(T) inhibitors of activated Ras protein.

Authors: Ina C Rosnizeck; Michael Spoerner; Tobias Harsch; Sandra Kreitner; Daniel Filchtinski; Christian Herrmann; Daniel Engel; Burkhard König; Hans Robert Kalbitzer
Journal: Angew Chem Int Ed Engl Date: 2012-09-20 Impact factor: 15.336

7. In vitro and in vivo synergy of MCP compounds with mitogen-activated protein kinase pathway- and microtubule-targeting inhibitors.

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Review 8. Targeting the RAS oncogene.

Authors: Asami Takashima; Douglas V Faller
Journal: Expert Opin Ther Targets Date: 2013-01-30 Impact factor: 6.902

9. Inhibitors of Ras/Raf-1 interaction identified by two-hybrid screening revert Ras-dependent transformation phenotypes in human cancer cells.

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10. Novel allosteric sites on Ras for lead generation.

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Journal: Cancer Res Date: 2017-07-17 Impact factor: 12.701

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Journal: Cold Spring Harb Perspect Med Date: 2018-06-01 Impact factor: 6.915

3. Discovery of a Bicyclic Peptidyl Pan-Ras Inhibitor.

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Journal: J Med Chem Date: 2021-08-20 Impact factor: 8.039

Review 4. Stem Cell Models for Cancer Therapy.

Authors: Nitin Telang
Journal: Int J Mol Sci Date: 2022-06-24 Impact factor: 6.208

Review 5. Interaction between Wnt/β-catenin and RAS-ERK pathways and an anti-cancer strategy via degradations of β-catenin and RAS by targeting the Wnt/β-catenin pathway.

Authors: Woo-Jeong Jeong; Eun Ji Ro; Kang-Yell Choi
Journal: NPJ Precis Oncol Date: 2018-02-20

6. Identification of Ras-degrading small molecules that inhibit the transformation of colorectal cancer cells independent of β-catenin signaling.

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Journal: Exp Mol Med Date: 2018-06-06 Impact factor: 8.718