Abstract
Reduced expression of microRNA122 (miR122), a liver-specific microRNA, is frequent in hepatocellular carcinoma (HCC). However, its biological significances remain poorly understood. Because deregulated amino acid levels in cancers can affect their biological behavior, we determined the amino acid levels in miR122-silenced mouse liver tissues, in which intracellular arginine levels were significantly increased. The increased intracellular arginine levels were through upregulation of the solute carrier family 7 (SLC7A1), a transporter of arginine and a direct target of miR122. Arginine is the substrate for nitric oxide (NO) synthetase, and intracellular NO levels were increased in miR122-silenced HCC cells, with increased resistance to sorafenib, a multikinase inhibitor. Conversely, maintenance of the miR122-silenced HCC cells in arginine-depleted culture media, as well as overexpression of miR122 in miR122-low-expressing HCC cells, reversed these effects and rendered the cells more sensitive to sorafenib. Using a reporter knock-in construct, chemical compounds were screened, and Wee1 kinase inhibitor was identified as upregulators of miR122 transcription, which increased the sensitivity of the cells to sorafenib. These results provide an insight into sorafenib resistance in miR122-low HCC, and suggest that arginine depletion or a combination of sorafenib with the identified compound may provide promising approaches to managing this HCC subset.
Highlights
IntroductionThe expression of miR122, a liver-specific microRNA (miRNA), is frequently repressed in human hepatocellular carcinoma (HCC) [4], and this is functionally linked with aggressive phenotypes in HCC cells [5, 6]
hepatocellular carcinoma (HCC) is the third most common cause of cancerrelated mortality worldwide [1]
Arginine is the substrate for nitric oxide (NO) synthetase, and intracellular NO levels were increased in miR122-silenced HCC cells, with increased resistance to sorafenib, a multikinase inhibitor
Summary
The expression of miR122, a liver-specific microRNA (miRNA), is frequently repressed in human HCC [4], and this is functionally linked with aggressive phenotypes in HCC cells [5, 6]. Mice lacking the gene encoding miR122 suffer from liver steatosis and HCC, suggesting a critical role of miR122 in metabolic homeostasis and oncogenesis in the liver [7, 8]. Cationic amino acid transporter member 1 (CAT1, known as solute carrier family 7, SLC7A1) is the best-known direct target of miR122. Because SLC7A1 is a well-known arginine transporter [15], it was hypothesized that repressed miR122 expression in HCC would lead to deregulated levels of intracellular amino acids, especially arginine, which may affect the biological phenotype of HCC
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