Abstract
Mitochondrial aldehyde dehydrogenase 2 (ALDH2) is critical in the pathogenesis of alcoholic liver cirrhosis. However, the effect of ALHD2 on liver fibrosis remains to be further elucidated. This study aimed to demonstrate whether ALDH2 regulates carbon tetrachloride (CCl4)‐induced liver fibrosis and to investigate the efficacy of Alda‐1, a specific activator of ALDH2, on attenuating liver fibrosis. ALDH2 expression was increased after chronic CCl4 exposure. ALDH2 deficiency accentuated CCl4‐induced liver fibrosis in mice, accompanied by increased expression of collagen 1α1, α‐SMA and TIMP‐1. Moreover, ALDH2 knockout triggered more ROS generation, hepatocyte apoptosis and impaired mitophagy after CCl4 treatment. In cultured HSC‐T6 cells, ALDH2 knockdown by transfecting with lentivirus vector increased ROS generation and α‐SMA expression in an in vitro hepatocyte fibrosis model using TGF‐β1. ALDH2 overexpression by lentivirus or activation by Alda‐1 administration partly reversed the effect of TGF‐β1, whereas ALDH2 knockdown totally blocked the protective effect of Alda‐1. Furthermore, Alda‐1 administration protected against liver fibrosis in vivo, which might be mediated through up‐regulation of Nrf2/HO‐1 cascade and activation of Parkin‐related mitophagy. These findings indicate that ALDH2 deficiency aggravated CCl4‐induced hepatic fibrosis through ROS overproduction, increased apoptosis and mitochondrial damage, whereas ALDH2 activation through Alda‐1 administration alleviated hepatic fibrosis partly through activation of the Nrf2/HO‐1 antioxidant pathway and Parkin‐related mitophagy, which indicate ALDH2 as a promising anti‐fibrotic target and Alda‐1 as a potential therapeutic agent in treating CCl4‐induced liver fibrosis.
Highlights
Liver fibrosis is a consequence of wound-healing process responded to several types of acute or chronic liver injury, including ethanol consumption, viral infection, fatty liver disease and metabolic disorders.[1,2,3] early-phase liver fibrosis is considered a reversible pathological process, late-stage liver fibrosis will deteriorate to cirrhosis, portal hypertension or even hepatocellular carcinoma, which lead to increased morbidity and mortality.[4,5] Carbon tetrachloride (CCl4) is a widely used toxicant in experimental animals to induce liver lesion and liver fibrosis.[6]
These findings indicate that aldehyde dehydrogenase 2 (ALDH2) deficiency aggravated CCl4-induced hepatic fibrosis through reactive oxygen species (ROS) overproduction, increased apoptosis and mitochondrial damage, whereas ALDH2 activation through Alda-1 administration alleviated hepatic fibrosis partly through activation of the Nuclear factor erythroid 1-related factor 2 (Nrf2)/Heme oxygenase-1 (HO-1) antioxidant pathway and Parkin-related mitophagy, which indicate ALDH2 as a promising anti-fibrotic target and Alda-1 as a potential therapeutic agent in treating CCl4-induced liver fibrosis
The results showed that ALT level was significantly increased in CCl4-induced WT mice compared with the control mice, which was further increased in ALDH2À/À-CCl4 group (Figure 1E)
Summary
Liver fibrosis is a consequence of wound-healing process responded to several types of acute or chronic liver injury, including ethanol consumption, viral infection, fatty liver disease and metabolic disorders.[1,2,3] early-phase liver fibrosis is considered a reversible pathological process, late-stage liver fibrosis will deteriorate to cirrhosis, portal hypertension or even hepatocellular carcinoma, which lead to increased morbidity and mortality.[4,5] Carbon tetrachloride (CCl4) is a widely used toxicant in experimental animals to induce liver lesion and liver fibrosis.[6]. Aldehyde dehydrogenase 2 (ALDH2) is a key enzyme that metabolizes reactive acetaldehyde into non-toxic acetic acid, and detoxifies ROS-generated aldehyde substances such as 4-hydroxy-2-nonenal (4-HNE) and malondialdehyde (MDA).[21,22] Nearly, half of the EastAsian population possessed the genetic mutation which results in the deficiency of ALDH2 activity.[23,24] Findings from our laboratory and others revealed a beneficial role of ALDH2 in rescuing against certain diseases, such as ischemia heart disease, alcoholic liver disease and stroke,[25,26] which might be mediated through regulating oxidation stress, apoptosis and autophagy.[27,28,29,30,31] the role of ALDH2 in CCl4-induced chronic liver fibrosis and the underlying mechanisms remains to be further elucidated To this end, the present study was designed to investigate the effects of ALDH2 on CCl4-induced liver fibrosis, collagen deposition and oxidative stress. Alda-1, a specific ALDH2 activator, was administered to further demonstrate the therapeutic effect of ALDH2 activation on liver fibrosis
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