Leptin deficiency enhances sensitivity of rats to alcoholic steatohepatitis through suppression of metallothionein

Oxidative stress is stated to be a central mechanism of hepatocellular injury in alcohol-induced liver injury. Recent reports have shown that Kupffer cell dysfunction in the leptin-deficient state contributes partly to the increased sensitivity to endotoxin liver injury. Here we report that leptin a...

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Bibliographic Details
Published in:American journal of physiology: Gastrointestinal and liver physiology 2004-11, Vol.287 (5), p.G1078-G1085
Main Authors: Tomita, Kengo, Azuma, Toshifumi, Kitamura, Naoto, Tamiya, Gen, Ando, Satoshi, Nagata, Hiroshi, Kato, Shinzo, Inokuchi, Sayaka, Nishimura, Takeshi, Ishii, Hiromasa, Hibi, Toshifumi
Format: Article
Language:English
Subjects:
Animals
Drug Administration Schedule
Ethanol - administration & dosage
Fatty Liver - chemically induced
Fatty Liver - pathology
Fluorescent Dyes
Immunohistochemistry
Kupffer Cells - drug effects
Kupffer Cells - metabolism
Leptin - deficiency
Male
Metallothionein - antagonists & inhibitors
Metallothionein - genetics
Metallothionein - metabolism
Oligonucleotide Array Sequence Analysis
Rats
Rats, Zucker
RNA, Messenger - antagonists & inhibitors
RNA, Messenger - metabolism
Tumor Necrosis Factor-alpha - genetics
Zinc - metabolism
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Summary:Oxidative stress is stated to be a central mechanism of hepatocellular injury in alcohol-induced liver injury. Recent reports have shown that Kupffer cell dysfunction in the leptin-deficient state contributes partly to the increased sensitivity to endotoxin liver injury. Here we report that leptin also plays a key role in the development of alcoholic liver injury and that leptin signaling in hepatocytes is involved in cellular mechanisms that mediate ethanol-induced oxidative stress. We found that chronic ethanol feeding in leptin receptor-deficient Zucker (fa/fa) rats for 6 wk resulted in a much more severe liver injury and augmented accumulation of hepatic lipid peroxidation compared with control littermates. The hepatic induction of stress-response and antioxidant proteins, such as metallothionein (MT)-1 and -2, was significantly suppressed in fa/fa rats after chronic ethanol feeding. Zinc concentration in liver was also decreased in fa/fa rats, compared with control littermates. In primary cultured hepatocytes from fa/fa rats, incubation with ethanol significantly suppressed MT-1 and -2 expressions. Addition of leptin to leptin-deficient ob/ob mouse primary hepatocytes led to an increase in MT-1 and -2 mRNA levels and a decrease in oxidative stress after incubation with ethanol. In conclusion, leptin deficiency enhances sensitivity of rats to alcohol-induced steatohepatitis through hepatocyte-specific interaction of MT-1 and -2 and resultant exaggeration of oxidative stress in hepatocytes. These findings suggest that leptin resistance in hepatocytes is an important mechanism of alcohol-induced liver injury.
ISSN:0193-1857
1522-1547
DOI:10.1152/ajpgi.00107.2004