Abstract 1459: miR-221: A potential therapeutic target for hepatocellular carcinoma

microRNAs, which control post-transcriptional gene expression by repressing mRNA translation and/or causing mRNA degradation, play important roles in human cancers. miR-221 is one of the two microRNAs in the miR-221/222 cluster located in chromosome-X, targets key cancer pathways and inhibit transla...

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Published in:Cancer research (Chicago, Ill.) Ill.), 2014-10, Vol.74 (19_Supplement), p.1459-1459
Main Authors: Lee, Edmund C., Xu, Jessica, Vincent, Thomas, Chen, Jie, Nelson, Michael, Huang, Xinqiang, Marcusson, Eric, Androsavich, John, Davis, Scott, Pavlicek, Adam, Gibson, Neil, Zabludoff, Sonya
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Language:English
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Summary:microRNAs, which control post-transcriptional gene expression by repressing mRNA translation and/or causing mRNA degradation, play important roles in human cancers. miR-221 is one of the two microRNAs in the miR-221/222 cluster located in chromosome-X, targets key cancer pathways and inhibit translation of several tumor suppressors including p27, p57, and PTEN. miR-221 is up-regulated by >2-fold in 55% and >5-fold in 14% of human hepatocellular carcinoma (HCC) tumor samples. Importantly, it has been shown in preclinical HCC models that miR-221 overexpression accelerated tumorigenesis, while miR-221 inhibition reduced tumor growth. To identify novel microRNA antagonists that specifically inhibit miR-221 (refer to as miR-221 anti-miRs) for the treatment of HCC, we have generated a number of chemically-modified oligonucleotides and screened for their ability to inhibit miR-221 functions. A number of potent and metabolically stable miR-221 anti-miRs devoid of proinflammatory potential were identified. These miR-221 anti-miRs were tested in a number of human HCC cell lines that highly express miR-221 compare to normal adult human hepatocytes. We demonstrated the de-repression of both p27 mRNA and p27 protein in HCC cells following treatment with miR-221 anti-miRs. We also showed in HCC cells the de-repression of a novel miR-221 target gene recently identified through an argonuate pull-down assay (Ago-IP), alongside with the enrichment of global miR-221 target seeds (as defined by TargetScan) following miR-221 anti-miRs treatment. We then sought to determine the biologic consequences following miR-221 inhibition in HCC cells. In standard cell proliferation assays, we demonstrated that HCC cells responded to miR-221 anti-miRs treatment with IC50s of 125 to 500nM under free-uptake conditions and IC50s of 5 to 75 nM under transfection conditions. In addition, we also showed that miR-221 anti-miRs treatment disrupted HCC cell cycle transition. Altogether, our data showed that miR-221 inhibition de-repressed p27, blocked cell cycle progression and reduced cell proliferation in HCC cells, and supports the notion of miR-221 as a potential therapeutic target for the treatment of HCC. Further preclinical testing of our miR-221 anti-miRs is currently in progress. Citation Format: Edmund C. Lee, Jessica Xu, Thomas Vincent, Jie Chen, Michael Nelson, Xinqiang Huang, Eric Marcusson, John Androsavich, Scott Davis, Adam Pavlicek, Neil Gibson, Sonya Zabludoff. miR-221: A potenti
ISSN:0008-5472
1538-7445
DOI:10.1158/1538-7445.AM2014-1459