The tumor suppressor Ras-association domain family member 6 (RASSF6) has Ras-association domain (RA) and Salvador/RASSF/Hippo domain (SARAH). RASSF6 antagonizes MDM2, stabilizes p53, and induces apoptosis and cell cycle arrest. We previously demonstrated the interaction between RASSF6 and MDM2, but did not determine how both proteins interact with each other. We have shown here that N-terminal, RA, and SARAH domains of RASSF6 interact with MDM2 at distinct regions. RA binds to the RING-finger region of MDM2 and stabilizes p53. SARAH binds RA and blocks the interaction between RA and MDM2. RA overexpression induces p53-dependent apoptosis and senescence. In the presence of active KRas, the interaction between RA and MDM2 is recovered. In this way, RA and SARAH play an important role in Rasmediated regulation of p53.
Ras‐association domain family 6 (RASSF6) is a tumor suppressor that interacts with MDM2 and stabilizes p53. Caenorhabditis elegans unc‐119 encodes a protein that is required for normal development of the nervous system. Humans have 2 unc‐119 homologues, UNC119 and UNC119B. We have identified UNC119 as a RASSF6‐interacting protein. UNC119 promotes the interaction between RASSF6 and MDM2 and stabilizes p53. Thus, UNC119 induces apoptosis by RASSF6 and p53. UNC119 depletion impairs DNA repair after DNA damage and results in polyploid cell generation. These findings support that UNC119 is a regulator of the RASSF6‐MDM2‐p53 axis and functions as a tumor suppressor.
Whereas miR-200 family is known to be involved in the epithelial-to-mesenchymal transition (EMT), a crucial biological process observed in normal and pathological contexts, it has been largely unclear how far the functional levels of these tiny RNAs alone can propagate the molecular events to accomplish this process within several days. By developing a potent inhibitor of miR-200 family members (TuD-141/200c), the expression of which is strictly regulatable by the Tet (tetracycline)-On system, we found using a human colorectal cell line, HCT116, that several direct gene target mRNAs (Zeb1/Zeb2, ESRP1, FN1and FHOD1) of miR-200 family were elevated with distinct kinetics. Prompt induction of the transcriptional suppressors, Zeb1/Zeb2 in turn reduced the expression levels of miR-200c/-141 locus, EpCAM, ESRP1 and E-Cad. The loss of ESRP1 subsequently switched the splicing isoforms of CD44 and p120 catenin mRNAs to mesenchymal type. Importantly, within 9 days after the release from the inhibition of miR-200 family, all of the expression changes in the 14 genes observed in this study returned to their original levels in the epithelial cells. This suggests that the inherent epithelial plasticity is supported by a weak retention of key regulatory gene expression in either the epithelial or mesenchymal states through epigenetic regulation.
The gene encoding the proto-oncogene GTPase RAS is frequently mutated in human cancers. Mutated RAS proteins trigger antiapoptotic and cell proliferative signals and lead to oncogenesis. However, RAS also induces apoptosis and senescence, which may contribute to the eradication of cells with RAS mutations. We previously reported that Ras association domain family member 6 (RASSF6) binds MDM2 proto-oncogene (MDM2) and stabilizes the tumor suppressor p53 and that the active form of KRAS promotes the interaction between RASSF6 and MDM2. We also reported that Unc-119 lipid-binding chaperone (UNC119A), a chaperone of myristoylated proteins, interacts with RASSF6 and regulates RASSF6-mediated apoptosis. In this study, using several human cancer cell lines, quantitative RT-PCR, RNAi-based gene silencing, and immunoprecipitation/-fluorescence and cell biology assays, we report that UNC119 interacts with the active form of KRAS and that the C-terminal modification of KRAS is required for this interaction. We also noted that the hydrophobic pocket of UNC119, which binds the myristoylated peptides, is not involved in the interaction. We observed that UNC119 promotes the binding of KRAS to RASSF6, enhances the interaction between RASSF6 and MDM2, and induces apoptosis. Conversely, UNC119 silencing promoted soft agar colony formation, migration, and invasiveness in KRAS-mutated cancer cells. We conclude that UNC119 promotes KRAS-mediated p53-dependent apoptosis via RASSF6 and may play a tumor-suppressive role in cells with KRAS mutations.
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