Abstract
Impaired liver regeneration has been considered as a hallmark of progression of alcohol-associated liver disease. Our previous studies demonstrated that in vivo inhibition of the microRNA (miRNA) miR21 can restore regenerative capacity of the liver in chronic ethanol-fed animals. The present study focuses on the role of microRNA regulatory networks that are likely to mediate the miR-21 action. Rats were chronically fed an ethanol-enriched diet along with pair-fed control animals and treated with AM21 (anti-miR-21), a locked nucleic acid antisense to miR-21. Partial hepatectomy (PHx) was performed and miRNA expression profiling over the course of liver regeneration was assessed. Our results showed dynamic expression changes in several miRNAs after PHx, notably with altered miRNA expression profiles between ethanol and control groups. We found that in vivo inhibition of miR-21 led to correlated differential expression of miR-340-5p and anticorrelated expression of miR-365, let-7a, miR-1224, and miR-146a across all sample groups after PHx. Gene set enrichment analysis identified a miRNA signature significantly associated with hepatic stellate cell activation within whole liver tissue data. We hypothesized that at least part of the PHx-induced miRNA network changes responsive to miR-21 inhibition is localized to hepatic stellate cells. We validated this hypothesis using AM21 and TGF-β treatments in LX-2 human hepatic stellate cells in culture and measured expression levels of select miRNAs by quantitative RT-PCR. Based on the in vivo and in vitro results, we propose a hepatic stellate cell miRNA regulatory network as contributing to the restoration of liver regenerative capacity by miR-21 inhibition.
Highlights
Alcohol-associated liver disease (ALD) is a major health concern and one of the leading causes of chronic liver disease, eventually leading to the development of cirrhosis and hepatocellular carcinoma [1, 2]
The liver is normally capable of restoring its baseline mass and function following severe injury, the regenerative capacity of the liver is significantly decreased by chronic ethanol consumption, due to complications arising from hepatitis, fibrosis, and improper hepatocyte proliferation [2]
This study further explores the relationship between miRNA expression and liver regeneration in the context of chronic alcohol intake
Summary
Alcohol-associated liver disease (ALD) is a major health concern and one of the leading causes of chronic liver disease, eventually leading to the development of cirrhosis and hepatocellular carcinoma [1, 2]. Of particular interest are the observed changes in hepatic stellate cell (HSC) signaling networks, which can lead to the transition between multiple functional cell states such as quiescent (baseline) and activated (antiproliferative, profibrotic). Regulation of the signaling resulting in shifts to these states, and overall HSC function, has significant implications for the regenerative capacity in the liver. Previous research has investigated the critical role of miRNA dysregulation in multiple disease states across organ systems, including liver-specific diseases such as infection with hepatitis B or C viruses (HBV/ HCV) and hepatocellular carcinoma (HCC) [7].
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