AMP-activated protein kinase (AMPK) is a metabolic regulator that acts to limit the growth of cancer cells. AMPK is downregulated by melanoma antigens A3/6 (MAGEA3/6), which are cancer-specific proteins that enhance the activity of specific E3 ubiquitin ligases to ubiquitinate and degrade AMP-activated protein kinase α1 (AMPKα1). Here, using a bioinformatic approach, we identified a microRNA, miR-1273g-3p, that is predicted to target the 3' untranslated region (UTR) of MAGEA3/6. Analyzing miR-1273g-3p expression in human colon cancer tissues, we found a reduction in miR-1273g-3p expression correlating with increased MAGEA3/6 expression and AMPKα1 downregulation. Expression of miR-1273g in HT-29 cells and primary human colon cancer cells down-regulated MAGEA3/6, leading to AMPKα1 upregulation, inhibition of proliferation and cell apoptosis. The anti-CRC activity of miR-1273g was blocked by AMPKα1 knockout. MAGEA3/6 shRNA silencing mimicked and abolished miR-1273g-induced actions in HT-29 cells. In vivo, miR-1273g- or MAGEA3/6 shRNA-expressing HT-29 tumors grew significantly slower than control tumors. We propose a novel miRNA-based mechanism, whereby miR-1273g represses MAGEA3/6 expression in human CRC cells and tissues, which may provide a novel cancer-specific therapeutic.
Keywords: AMP-activated protein kinase; Melanoma antigen A3/A6; Molecularly-targeted therapy; microRNA.
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