Nore1 and RASSF1 regulation of cell proliferation and of the MST1/2 kinases.

Abstract The six human Nore1/RASSF genes encode a family of putative tumor suppressor proteins, each expressed as multiple mRNA splice variants. The predominant isoforms of these noncatalytic polypeptides are characterized by the presence in their carboxyterminal segments of a Ras‐Association (RA) domain followed by a SARAH domain. The expression of the RASSF1A and Nore1A isoforms is extinguished selectively by gene loss and/or epigenetic mechanisms in a considerable fraction of epithelial cancers and cell lines derived therefrom, and reexpression usually suppresses the proliferation and tumorigenicity of these cells. RASSF1A/Nore1A can cause cell cycle delay in G1 and/or M and may promote apoptosis. The founding member, Nore1A, binds preferentially through its RA domain to the GTP‐charged forms of Ras, Rap‐1, and several other Ras subfamily GTPases with high affinity. By contrast, RASSF1, despite an RA domain 50% identical to Nore1, exhibits relatively low affinity for Ras‐like GTPases but may associate with Ras‐GTP indirectly. Each of the RASSF polypeptides, including the C. elegans ortholog encoded by T24F1.3, binds to the Ste20‐related protein kinases MST1 and MST2 through the SARAH domains of each partner. The recombinant MST1/2 kinases, spontaneous dimers, autoactivate in vitro through an intradimer transphosphorylation of the activation loop, and the Nore1/RASSF1 polypeptides inhibit this process. Recombinant MST1 is strongly activated in vivo by recruitment to the membrane; the recombinant MST1 that is bound to RasG12V through Nore1A is activated; however, the bulk of MST1 is not. Endogenous complexes of MST1 with both Nore1A and RASSF1A are detectable, and Nore1A/MST1 can associate with endogenous Ras in response to serum addition. Nevertheless, the physiological functions of the Nore1/RASSF polypeptides in mammalian cells, as well as the role of the MST1/2 kinases in their growth‐suppressive actions, remain to be established. The Drosophila MST1/2 ortholog hippo is a negative regulator of cell cycle progression and is necessary for developmental apoptosis. Overexpression of mammalian MST1 or MST2 promotes apoptosis, as does overexpression of mutant active Ki‐Ras. Interference with the ability of endogenous MST1/2 to associate with the Nore1/RASSF polypeptides inhibits Ras‐induced apoptosis. At present, however, the relevance of Ki‐Ras–induced apoptosis to the physiological functions of c‐Ras and to the growth‐regulating actions of spontaneously occurring oncogenic Ras mutants is not known.