OBJECTIVES: MicroRNAs (miRNAs) are small functional RNAs that regulate mRNAs for degradation or translational suppression. In the present study, we aimed to reveal functional importance of miRNA-494 (miR-494) in A549 human lung cancer cells. MATERIALS AND METHODS: We established A549 cells that constitutively expressed miR-494. Next, we sought to investigate insulin-like growth factor 2 mRNA-binding protein 1 (IGF2BP1) mRNA as an miR-494 target. For this, we constructed a reporter plasmid bearing potential miR-494 binding sequences derived from the 3'-untranslated region (3'-UTR) of IGF2BP1 mRNA in the 3'-UTR of the luciferase gene. RESULTS: Through comparison between miR-494 expressing cells and control cells, we revealed that miR-494 suppressed cell proliferation and colony forming activity, and induced senescence. Reporter activity was inhibited by miR-494. In addition, IGF2BP1 mRNA levels were down-regulated in A549 cells that constitutively expressed miR-494. IGF2BP1 has been shown to bind and suppress IGF2 mRNA, and this could be a reason why IGF2BP1 can regulate cell function. Therefore, we analysed IGF2 mRNA levels and revealed that IGF2 was up-regulated in A549 cells that constitutively expressed miR-494. Finally, elevated IGF2 mRNA levels in A549 cells that constitutively expressed miR-494 were suppressed to basal level by an miR-494 inhibitor. CONCLUSIONS: Taken together, IGF2BP1 and its downstream target IGF2 could be a crucial axis for miR-494 in regulation of the destiny of A549 cells.
OBJECTIVES: MicroRNAs (miRNAs) are small functional RNAs that regulate mRNAs for degradation or translational suppression. In the present study, we aimed to reveal functional importance of miRNA-494 (miR-494) in A549 human lung cancer cells. MATERIALS AND METHODS: We established A549 cells that constitutively expressed miR-494. Next, we sought to investigate insulin-like growth factor 2 mRNA-binding protein 1 (IGF2BP1) mRNA as an miR-494 target. For this, we constructed a reporter plasmid bearing potential miR-494 binding sequences derived from the 3'-untranslated region (3'-UTR) of IGF2BP1 mRNA in the 3'-UTR of the luciferase gene. RESULTS: Through comparison between miR-494 expressing cells and control cells, we revealed that miR-494 suppressed cell proliferation and colony forming activity, and induced senescence. Reporter activity was inhibited by miR-494. In addition, IGF2BP1 mRNA levels were down-regulated in A549 cells that constitutively expressed miR-494. IGF2BP1 has been shown to bind and suppress IGF2 mRNA, and this could be a reason why IGF2BP1 can regulate cell function. Therefore, we analysed IGF2 mRNA levels and revealed that IGF2 was up-regulated in A549 cells that constitutively expressed miR-494. Finally, elevated IGF2 mRNA levels in A549 cells that constitutively expressed miR-494 were suppressed to basal level by an miR-494 inhibitor. CONCLUSIONS: Taken together, IGF2BP1 and its downstream target IGF2 could be a crucial axis for miR-494 in regulation of the destiny of A549 cells.
Authors: Azra Krek; Dominic Grün; Matthew N Poy; Rachel Wolf; Lauren Rosenberg; Eric J Epstein; Philip MacMenamin; Isabelle da Piedade; Kristin C Gunsalus; Markus Stoffel; Nikolaus Rajewsky Journal: Nat Genet Date: 2005-04-03 Impact factor: 38.330
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