BACKGROUND: MicroRNAs miR-9-3 and miR-193a have recently been found to be hypermethylated in a variety of non-small cell lung cancer (NSCLC) cells and primary human tumors. The objectives of this study were to investigate the role of demethylation of miR-9-3 and miR-193a genes in regulating proliferation and apoptosis in NSCLCs, and to decipher the potential mechanisms underlying the properties. METHODS: MTT and population doubling time by flow cytometry were used to assess cell proliferation. Enzyme-Linked Immunosorbent Assay and caspase-3 activity assay were employed to evaluate apoptosis. Real-time RT-PCR and Western blot were used to quantify gene expression at mRNA and protein levels, respectively. Methylation-specific PCR was utilized to assess methylation status. RESULTS: We found that demethylation agent 5-Aza-2'-deoxycytidine (5-AzaC) reduced cell numbers and prolonged population doubling time (PDT), and promoted doxorubicin-induced apoptosis in seven NSCLC cell lines with different methylation statuses on miR-9-3 and miR-193a promoter regions: NCI-H1993/NCI-H1915 (miR-9-3(+)/miR-193a(+)), NCI-H1975/NCI-H200 (miR-9-3(+)/miR-193a(-)), A427/NCI-H2073 (miR-9-3(-)/miR-193a(+)), and NCI-H1703 (miR-9-3(-)/miR-193a(-)). Treatment with 5-AzaC concomitantly upregulated expression of miR-9-3 and miR-193a, and downregulated their respective target genes NF-κB and Mcl-1. The effects of 5-AzaC were abolished by concomitant knockdown of miR-9-3 and miR-193a using the complex antisense technique, whereas forced ectopic expression of miR-9-3 and miR-193a mimicked the effects of 5-AzaC. We further observed that the strength of proliferation inhibition and apoptosis promotion elicited by 5-AzaC was in the order of NCI-H1993/NCI-H1915 > A427/NCI-H2073 > NCI-H1975/NCI-H200 > NCI-H1703. CONCLUSIONS: Methylation-silencing of miR-9-3 and miR-193a may be an important epigenetic mechanisms favoring NSCLC cell growth and survival for carcinogenesis and cancer progression, and demethylation to reactivate expression of miR-9-3 and miR-193a genes contributes, at least partially, to the anti-cancer properties of 5-AzaC and thereby may be worthy of future studies for the possibility of being a new therapeutic strategy for the treatment of human NSCLCs.
BACKGROUND: MicroRNAs miR-9-3 and miR-193a have recently been found to be hypermethylated in a variety of non-small cell lung cancer (NSCLC) cells and primary humantumors. The objectives of this study were to investigate the role of demethylation of miR-9-3 and miR-193a genes in regulating proliferation and apoptosis in NSCLCs, and to decipher the potential mechanisms underlying the properties. METHODS:MTT and population doubling time by flow cytometry were used to assess cell proliferation. Enzyme-Linked Immunosorbent Assay and caspase-3 activity assay were employed to evaluate apoptosis. Real-time RT-PCR and Western blot were used to quantify gene expression at mRNA and protein levels, respectively. Methylation-specific PCR was utilized to assess methylation status. RESULTS: We found that demethylation agent 5-Aza-2'-deoxycytidine (5-AzaC) reduced cell numbers and prolonged population doubling time (PDT), and promoted doxorubicin-induced apoptosis in seven NSCLC cell lines with different methylation statuses on miR-9-3 and miR-193a promoter regions: NCI-H1993/NCI-H1915 (miR-9-3(+)/miR-193a(+)), NCI-H1975/NCI-H200 (miR-9-3(+)/miR-193a(-)), A427/NCI-H2073 (miR-9-3(-)/miR-193a(+)), and NCI-H1703 (miR-9-3(-)/miR-193a(-)). Treatment with 5-AzaC concomitantly upregulated expression of miR-9-3 and miR-193a, and downregulated their respective target genes NF-κB and Mcl-1. The effects of 5-AzaC were abolished by concomitant knockdown of miR-9-3 and miR-193a using the complex antisense technique, whereas forced ectopic expression of miR-9-3 and miR-193a mimicked the effects of 5-AzaC. We further observed that the strength of proliferation inhibition and apoptosis promotion elicited by 5-AzaC was in the order of NCI-H1993/NCI-H1915 > A427/NCI-H2073 > NCI-H1975/NCI-H200 > NCI-H1703. CONCLUSIONS: Methylation-silencing of miR-9-3 and miR-193a may be an important epigenetic mechanisms favoring NSCLC cell growth and survival for carcinogenesis and cancer progression, and demethylation to reactivate expression of miR-9-3 and miR-193a genes contributes, at least partially, to the anti-cancer properties of 5-AzaC and thereby may be worthy of future studies for the possibility of being a new therapeutic strategy for the treatment of human NSCLCs.
Authors: K Nowek; S M Sun; L Bullinger; E M J Bindels; C Exalto; M K Dijkstra; K van Lom; H Döhner; S J Erkeland; B Löwenberg; M Jongen-Lavrencic Journal: Leukemia Date: 2015-07-15 Impact factor: 11.528
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Authors: Suzanne F C Miller-Delaney; Kenneth Bryan; Sudipto Das; Ross C McKiernan; Isabella M Bray; James P Reynolds; Ryder Gwinn; Raymond L Stallings; David C Henshall Journal: Brain Date: 2014-12-30 Impact factor: 13.501
Authors: L Lv; H Deng; Y Li; C Zhang; X Liu; Q Liu; D Zhang; L Wang; Y Pu; H Zhang; Y He; Y Wang; Y Yu; T Yu; J Zhu Journal: Cell Death Dis Date: 2014-09-04 Impact factor: 8.469