BACKGROUND: Oncogenic RAS mutants such as v-Ha-RAS activate members of Rac/CDC42-dependent kinases (PAKs) and appear to contribute to the development of more than 30% of all human cancers. PAK1 activation is essential for oncogenic RAS transformation, and several chemical compounds that inhibit Tyr kinases essential for the RAS-induced activation of PAK1 strongly suppress RAS transformation either in cell culture or in vivo (nude mice). Although we have developed a cell-permeable PAK-specific peptide inhibitor called WR-PA18, so far no chemical (metabolically stable) compound has been developed that directly inhibits PAK1 in a highly selective manner. Thus, we have explored such a PAK1 inhibitor(s) among synthetic derivatives of an adenosine triphosphate antagonist. RESULTS: From the naturally occurring adenosine triphosphate antagonist K252a, we have developed two bulky derivatives, called CEP-1347 and KT D606 (a K252a dimer), which selectively inhibit PAKs or mixed-lineage kinases both in vitro and in cell culture and convert v-Ha-RAS-transformed NIH 3T3 cells to flat fibroblasts similar to the parental normal cells. Furthermore, these two K252a analogues suppress the proliferation of v-Ha-RAS transformants, but not the normal cells. CONCLUSION: These bulky adenosine triphosphate antagonists derived from K252a or related indolocarbazole compounds such as staurosporine would be potentially useful for the treatment of RAS/ PAK1-induced cancers, once their anti-PAK1 activity is significantly potentiated by a few additional chemical modifications at the sugar ring suggested in this paper.
BACKGROUND: Oncogenic RAS mutants such as v-Ha-RAS activate members of Rac/CDC42-dependent kinases (PAKs) and appear to contribute to the development of more than 30% of all humancancers. PAK1 activation is essential for oncogenic RAS transformation, and several chemical compounds that inhibit Tyr kinases essential for the RAS-induced activation of PAK1 strongly suppress RAS transformation either in cell culture or in vivo (nude mice). Although we have developed a cell-permeable PAK-specific peptide inhibitor called WR-PA18, so far no chemical (metabolically stable) compound has been developed that directly inhibits PAK1 in a highly selective manner. Thus, we have explored such a PAK1 inhibitor(s) among synthetic derivatives of an adenosine triphosphate antagonist. RESULTS: From the naturally occurring adenosine triphosphate antagonist K252a, we have developed two bulky derivatives, called CEP-1347 and KT D606 (a K252a dimer), which selectively inhibit PAKs or mixed-lineage kinases both in vitro and in cell culture and convert v-Ha-RAS-transformed NIH 3T3 cells to flat fibroblasts similar to the parental normal cells. Furthermore, these two K252a analogues suppress the proliferation of v-Ha-RAS transformants, but not the normal cells. CONCLUSION: These bulky adenosine triphosphate antagonists derived from K252a or related indolocarbazole compounds such as staurosporine would be potentially useful for the treatment of RAS/ PAK1-induced cancers, once their anti-PAK1 activity is significantly potentiated by a few additional chemical modifications at the sugar ring suggested in this paper.
Authors: Julia V Kichina; Anna Goc; Belal Al-Husein; Payaningal R Somanath; Eugene S Kandel Journal: Expert Opin Ther Targets Date: 2010-07 Impact factor: 6.902
Authors: Sean W Deacon; Alexander Beeser; Jami A Fukui; Ulrike E E Rennefahrt; Cynthia Myers; Jonathan Chernoff; Jeffrey R Peterson Journal: Chem Biol Date: 2008-04
Authors: Yi Zeng; Hal E Broxmeyer; Karl Staser; Brahmananda Reddy Chitteti; Su-Jung Park; Seongmin Hahn; Scott Cooper; Zejin Sun; Li Jiang; XianLin Yang; Jin Yuan; Rachelle Kosoff; George Sandusky; Edward F Srour; Jonathan Chernoff; D Wade Clapp Journal: Stem Cells Date: 2015-05 Impact factor: 6.277
Authors: Deborah N Chadee; Dazhong Xu; Gene Hung; Ali Andalibi; David J Lim; Zhijun Luo; David H Gutmann; John M Kyriakis Journal: Proc Natl Acad Sci U S A Date: 2006-03-13 Impact factor: 11.205