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Παρασκευή 5 Ιανουαρίου 2018

Is Nanoclustering essential for all oncogenic KRas pathways? Can it explain why wild-type KRas can inhibit its oncogenic variant?

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Publication date: Available online 5 January 2018
Source:Seminars in Cancer Biology
Author(s): Ruth Nussinov, Chung-Jung Tsai, Hyunbum Jang
Membrane-anchored oncogenic KRas can dimerize, form nanoclusters, and signal through the MAPK (Raf/MEK/ERK) and PI3Kα/Akt/mTOR. Both pathways are needed in KRAS-driven proliferation. Here we ask: Is oncogenic KRas nanoclustering (or dimerization) essential for all KRas signaling pathways? Raf kinase domain dimerization, thus MAPK activation, requires KRas nanoclusters. By contrast, the PI3Kα heterodimer acts as a monomeric unit; thus, does PI3Kα activation and PI3Kα/Akt/mTOR signaling require nanoclustering? Further, calmodulin binds only to oncogenic KRas4B. Here we ask: Does calmodulin downregulate KRas4B cancer development as suggested early on, or promote it? We also ask: Why is oncogenic KRas4B the most abundant isoform? Does wild-type Ras indeed inhibit its oncogenic variants as data appeared to suggest? And related to the last question, why is wild-type KRas a more potent inhibitor of its oncogenic form than wild-type NRas of its oncogenic form? Resolving these cardinal questions, and others, such as how exactly does RASSF5 (NORE1A) act as tumor suppressor, and why Ras isoforms tend to occur in distinct cancer types are crucial for effective pharmacology. In this review, we take a nanoclustering/dimerization-centric outlook and show that many questions can be explained by simply considering Ras nanoclustering.



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