Abstract
The spectrum of alcoholic liver disease (ALD) is broad and includes alcoholic fatty liver, alcoholic steatohepatitis, alcoholic hepatitis, alcoholic fibrosis, alcoholic cirrhosis, and alcoholic hepatocellular carcinoma, best explained as a five-hit sequelae of injurious steps. ALD is not primarily the result of malnutrition as assumed for many decades but due to the ingested alcohol and its metabolic consequences although malnutrition may marginally contribute to disease aggravation. Ethanol is metabolized in the liver to the heavily reactive acetaldehyde via the alcohol dehydrogenase (ADH) and the cytochrome P450 isoform 2E1 of the microsomal ethanol-oxidizing system (MEOS). The resulting disturbances modify not only the liver parenchymal cells but also non-parenchymal cells such as Kupffer cells (KCs), hepatic stellate cells (HSCs), and liver sinusoidal endothelial cells (LSECs). These are activated by acetaldehyde, reactive oxygen species (ROS), and endotoxins, which are produced from bacteria in the gut and reach the liver due to gut leakage. A variety of intrahepatic signaling pathways and innate or acquired immune reactions are under discussion contributing to the pathogenesis of ALD via the five injurious hits responsible for disease aggravation. As some of the mechanistic steps are based on studies with in vitro cell systems or animal models, respective proposals for humans may be considered as tentative. However, sufficient evidence is provided for clinical risk factors that include the amount of alcohol used daily for more than a decade, gender differences with higher susceptibility of women, genetic predisposition, and preexisting liver disease. In essence, efforts within the last years were devoted to shed more light in the pathogenesis of ALD, much has been achieved but issues remain to what extent results obtained from experimental studies can be transferred to humans.
Highlights
The global burden of alcoholic liver disease (ALD) including the various stages like alcoholic fatty liver (AFL), alcoholic steatohepatitis (ASH), alcoholic hepatitis (AH), alcoholic fibrosis (AF), alcoholic cirrhosis (AC), and alcoholic hepatocellular carcinoma (AHCC) is immense, based on the high disease frequency worldwide with variable occurrence from one country to the other [1,2,3,4,5,6,7]
The alcohol dehydrogenase (ADH) dependent metabolism of ethanol to the toxic acetaldehyde C2 H4 O and the concomitant production of NAD + H+ have a significant pathogenetic impact on the initiation of alcoholic fatty liver disease (AFL), the first stage of ALD [32,34]: (1) hepatic acetaldehyde is injurious to its mitochondria, impairs acetaldehyde oxidation, decreases fatty oxidation contributing to AFL, and facilitates the conversion of hydroxyproline to procollagen, the precursor of collagen as a key component of liver fibrosis and cirrhosis [32], while (2) excess of NAD + H+ promotes collagen formation and increases α-glycerophosphate and facilitates triglyceride accumulation in the liver cell by trapping fatty acids, enhances lipogenesis by promoting fatty acid synthesis, and impairs the citric acid cycle [32,34]
In order to simplify the understanding of pathogenetic steps leading to the various stages of ALD, a proposal of five-hit sequelae is presented based on various mechanistic considerations
Summary
The global burden of alcoholic liver disease (ALD) including the various stages like alcoholic fatty liver (AFL), alcoholic steatohepatitis (ASH), alcoholic hepatitis (AH), alcoholic fibrosis (AF), alcoholic cirrhosis (AC), and alcoholic hepatocellular carcinoma (AHCC) is immense, based on the high disease frequency worldwide with variable occurrence from one country to the other [1,2,3,4,5,6,7]. Pathogenetic results are mostly based on studies in animals or human cell cultures, which help unravel disease complexities
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