Small interfering RNAs (siRNAs) are small RNA molecules that have a potent, sequence-specific gene silencing effect and therefore show promise for therapeutic use as molecular-targeted drugs for the treatment of various genetic diseases, including cancer. The aim of the present study was to evaluate whether Argonaute2 (Ago2) is a therapeutically effective target for siRNA-based cancer therapy. Ago2 is the key protein in mammalian RNAi and is also known as the only member of the Ago family that mediates the microRNA (miRNA)-dependent cleavage of targeted mRNAs. It is assumed that these unique properties of the Ago2 protein can play a central role in the regulation of the miRNA pathway and subsequent translational inhibition of miRNA-targeted mRNAs, including cell survival and cancer progression. To assess its therapeutic effect, siRNA against Ago2 (Ago2-siRNA) was transfected into HT1080 human fibrosarcoma cells, which are malignant cancer cells. Ago2 gene silencing resulted in the inhibition of cell growth and the induction of apoptosis and G0/G1 arrest in the cell cycle. In addition, Ago2 knockdown induced morphological changes and actin stress fiber formation in the cells. The results of a microarray study showed that Ago2 suppression stimulated several crucial genes related to apoptosis, the cell cycle, immune response, cell adhesion, metabolism, etc. Repeated intratumoral injection of Ago2-siRNA/cationic liposome complex induced tumor growth suppression in an HT1080 xenograft model. These results suggest that the suppression of the Ago2 gene may be useful for the inhibition of cancer progression and that Ago2 may be a desirable target for siRNA-based cancer therapy.
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