PURPOSE: The purpose of this study is to investigate the molecular mechanism of miR-192 in colon cancer. EXPERIMENTAL DESIGN: Human colon cancer cell lines with different p53 status were used as our model system to study the effect of miR-192 on cell proliferation, cell cycle control, and mechanism of regulation. RESULTS: Our results show that one of the key miR-192 target genes is dihydrofolate reductase (DHFR). miR-192 affects cellular proliferation through the p53-miRNA circuit. Western immunoblot analyses indicated that the expression of DHFR was significantly decreased by miR-192. Further investigation revealed that such suppression was due to translational arrest rather than mRNA degradation. More profound inhibition of cellular proliferation was observed by ectopic expression of miR-192 in colon cancer cell lines containing wild-type p53 than cells containing mutant p53. Thus, the effect of miR-192 on cellular proliferation is mainly p53 dependent. Overexpression of miR-192 triggered both G1 and G2 arrest in HCT-116 (wt-p53) cells but not in HCT-116 (null-p53) cells. The cell cycle checkpoint control genes p53 and p21 were highly overexpressed in cells that overexpressed miR-192. Endogenous miR-192 expression was increased in HCT-116 (wt-p53) and RKO (wt-p53) cells treated with methotrexate, which caused an induction of p53 expression. Chromatin immunoprecipitation-quantitative reverse transcription-PCR analysis revealed that the p53 protein interacted with the miR-192 promoter sequence. CONCLUSION: These results indicate that miR-192 may be another miRNA candidate that is involved in the p53 tumor suppressor network with significant effect on cell cycle control and cell proliferation.
PURPOSE: The purpose of this study is to investigate the molecular mechanism of miR-192 in colon cancer. EXPERIMENTAL DESIGN:Humancolon cancer cell lines with different p53 status were used as our model system to study the effect of miR-192 on cell proliferation, cell cycle control, and mechanism of regulation. RESULTS: Our results show that one of the key miR-192 target genes is dihydrofolate reductase (DHFR). miR-192 affects cellular proliferation through the p53-miRNA circuit. Western immunoblot analyses indicated that the expression of DHFR was significantly decreased by miR-192. Further investigation revealed that such suppression was due to translational arrest rather than mRNA degradation. More profound inhibition of cellular proliferation was observed by ectopic expression of miR-192 in colon cancer cell lines containing wild-type p53 than cells containing mutant p53. Thus, the effect of miR-192 on cellular proliferation is mainly p53 dependent. Overexpression of miR-192 triggered both G1 and G2 arrest in HCT-116 (wt-p53) cells but not in HCT-116 (null-p53) cells. The cell cycle checkpoint control genes p53 and p21 were highly overexpressed in cells that overexpressed miR-192. Endogenous miR-192 expression was increased in HCT-116 (wt-p53) and RKO (wt-p53) cells treated with methotrexate, which caused an induction of p53 expression. Chromatin immunoprecipitation-quantitative reverse transcription-PCR analysis revealed that the p53 protein interacted with the miR-192 promoter sequence. CONCLUSION: These results indicate that miR-192 may be another miRNA candidate that is involved in the p53tumor suppressor network with significant effect on cell cycle control and cell proliferation.
Authors: George Adrian Calin; Calin Dan Dumitru; Masayoshi Shimizu; Roberta Bichi; Simona Zupo; Evan Noch; Hansjuerg Aldler; Sashi Rattan; Michael Keating; Kanti Rai; Laura Rassenti; Thomas Kipps; Massimo Negrini; Florencia Bullrich; Carlo M Croce Journal: Proc Natl Acad Sci U S A Date: 2002-11-14 Impact factor: 11.205
Authors: George Adrian Calin; Cinzia Sevignani; Calin Dan Dumitru; Terry Hyslop; Evan Noch; Sai Yendamuri; Masayoshi Shimizu; Sashi Rattan; Florencia Bullrich; Massimo Negrini; Carlo M Croce Journal: Proc Natl Acad Sci U S A Date: 2004-02-18 Impact factor: 11.205
Authors: Bo Song; Yuan Wang; Matthew A Titmus; Galina Botchkina; Andrea Formentini; Marko Kornmann; Jingfang Ju Journal: Mol Cancer Date: 2010-04-30 Impact factor: 27.401
Authors: B Song; Y Wang; Y Xi; K Kudo; S Bruheim; G I Botchkina; E Gavin; Y Wan; A Formentini; M Kornmann; O Fodstad; J Ju Journal: Oncogene Date: 2009-09-07 Impact factor: 9.867