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KMID : 0880220160540070520
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Journal of Microbiology
2016 Volume.54 No. 7 p.520 ~ p.526
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Hepatitis C virus infection stimulates transforming growth factor-¥â1 expression through up-regulating miR-192
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Kim Ji-Hyun
Lee Chang-Ho
Lee Seong-Wook
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Abstract
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The objective of this study was to determine the molecular mechanisms underlying chronic liver injury and fibrosis caused by hepatitis C virus (HCV). This study revealed that miR-192 expre©¬sion was induced by HCV infection without affecting viral replication. However, viral-induced miR-192 up-regulated transforming growth factor-©¬1 (TGF-©¬1) expre©¬sion in liver cells at transcriptional level. TGF-©¬1 stimulation by HCV-induced miR-192 was caused through ZEB1 down-regulation and TGF-©¬1 increased miR-192 level via positive feedback pathway. Increase in miR-192 expre©¬sion by HCV infection was due to HCV core protein released and/or expressed by viral infection. TGF-©¬1 promoter activity was also increased by HCV core protein in liver cells. Taken together, HCV infection resulted in increased TGF-©¬1 transcription in hepatocytes through ZEB1 down-regulation by HCV core-mediated miR-192 stimulation. Importantly, miR-192 inhibition with anti-miR-192 rescued ZEB1 expression down-regulated by HCV infection, thus reducing the level of TGF-©¬1 expression increased by HCV infection in hepatocytes. These results suggest a novel mechanism of HCV-mediated liver fibrogenesis with miR-192 being a potential molecular target to ameliorate viral pathogenesis.
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KEYWORD
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hepatitis C Virus, liver fibrosis, miR-192, TGF-¥â1, ZEB1
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