D M Beaupre1, R Kurzrock. 1. Department of Bioimmunotherapy, the University of Texas M.D. Anderson Cancer Center, Houston, 77030, USA.
Abstract
PURPOSE AND DESIGN: The purpose of this review is to provide an overview of the literature linking Ras signaling pathways and leukemia and to discuss the biologic and potential therapeutic implications of these observations. A search of MEDLINE from 1966 to October 1998 was performed. RESULTS: A wealth of data has been published on the role of Ras pathways in cancer. To be biologically active, Ras must move from the cytoplasm to the plasma membrane. Importantly, a posttranslational modification--addition of a farnesyl group to the Ras C-terminal cysteine--is a requisite for membrane localization of Ras. Farnesylation of Ras is catalyzed by an enzyme that is designated farnesyltransferase. Recently, several compounds have been developed that can inhibit farnesylation. Preclinical studies indicate that these molecules can suppress transformation and tumor growth in vitro and in animal models, with little toxicity to normal cells. CONCLUSION: An increasing body of data suggests that disruption of Ras signaling pathways, either directly through mutations or indirectly through other genetic aberrations, is important in the pathogenesis of a wide variety of cancers. Molecules such as farnesyl transferase inhibitors that interfere with the function of Ras may be exploitable in leukemia (as well as in solid tumors) as novel antitumor agents.
PURPOSE AND DESIGN: The purpose of this review is to provide an overview of the literature linking Ras signaling pathways and leukemia and to discuss the biologic and potential therapeutic implications of these observations. A search of MEDLINE from 1966 to October 1998 was performed. RESULTS: A wealth of data has been published on the role of Ras pathways in cancer. To be biologically active, Ras must move from the cytoplasm to the plasma membrane. Importantly, a posttranslational modification--addition of a farnesyl group to the Ras C-terminal cysteine--is a requisite for membrane localization of Ras. Farnesylation of Ras is catalyzed by an enzyme that is designated farnesyltransferase. Recently, several compounds have been developed that can inhibit farnesylation. Preclinical studies indicate that these molecules can suppress transformation and tumor growth in vitro and in animal models, with little toxicity to normal cells. CONCLUSION: An increasing body of data suggests that disruption of Ras signaling pathways, either directly through mutations or indirectly through other genetic aberrations, is important in the pathogenesis of a wide variety of cancers. Molecules such as farnesyl transferase inhibitors that interfere with the function of Ras may be exploitable in leukemia (as well as in solid tumors) as novel antitumor agents.
Authors: Annika M Wahlstrom; Briony A Cutts; Christin Karlsson; Karin M E Andersson; Meng Liu; Anna-Karin M Sjogren; Birgitta Swolin; Stephen G Young; Martin O Bergo Journal: Blood Date: 2006-09-14 Impact factor: 22.113
Authors: Iris T Chan; Jeffery L Kutok; Ifor R Williams; Sarah Cohen; Lauren Kelly; Hirokazu Shigematsu; Leisa Johnson; Koichi Akashi; David A Tuveson; Tyler Jacks; D Gary Gilliland Journal: J Clin Invest Date: 2004-02 Impact factor: 14.808