Significance of Ras Signaling in Cancer and Strategies for its Control

Abstract

Ras is a GTP-binding protein and is the most widely studied oncoprotein. To achieve its biological activity, it must undergo post-translation modification. Ras acts as a typical molecular switch. The GTP-bound Ras can activate several downstream effector pathways. Ras signaling regulates many important physiologic processes within a cell, such as cell cycle progression, survival, apoptosis, etc. Several studies have found mutation in Ras or its effectors in various types of tumors. Therefore, Ras or its downstream effectors can be attractive drug targets against various types of tumors in cancer therapeutics. Some therapeutic agents against Ras effectors, such as Raf, MEK1/2, PI3K, AKT etc., have successfully managed to enter into phase I and II trials. This targeted drug design could be envisaged in mainly four ways, such as prevention of Ras-GTP formation, covalent locking of the GDP-bound Ras, inhibition of Ras-effector interactions, or impairment of post-translational modification of Ras. In this review we summarize the normal Ras signaling as well its aberrant signaling in tumors and various strategies to inhibit Ras signaling.