Abstract
Previous studies demonstrated that acute alcohol intoxication caused hepatic lipid accumulation. The present study showed that acute alcohol intoxication caused hepatic lipid accumulation in Tlr4-wild-type mice but not in Tlr4-mutant mice. Hepatic sterol-regulatory element binding protein (SREBP)-1, a transcription factor regulating fatty acid and triglyceride (TG) synthesis, was activated in alcohol-treated Tlr4-wild-type mice but not in Tlr4-mutant mice. Hepatic Fas, Acc, Scd-1 and Dgat-2, the key genes for fatty acid and TG synthesis, were up-regulated in alcohol-treated Tlr4-wild-type mice but not in Tlr4-mutant mice. Additional experiment showed that hepatic MyD88 was elevated in alcohol-treated Tlr4-wild-type mice but not in Tlr4-mutant mice. Hepatic NF-κB was activated in alcohol-treated Tlr4-wild-type mice but not in Tlr4-mutant mice. Moreover, hepatic GSH content was reduced and hepatic MDA level was elevated in alcohol-treated Tlr4-wild-type mice but not in Tlr4-mutant mice. Hepatic CYP2E1 was elevated in alcohol-treated Tlr4-wild-type mice but not in Tlr4-mutant mice. Hepatic p67phox and gp91phox, two NADPH oxidase subunits, were up-regulated in alcohol-treated Tlr4-wild-type mice but not in Tlr4-mutant mice. Alpha-phenyl-N-t-butylnitrone (PBN), a free radical spin-trapping agent, protected against alcohol-induced hepatic SREBP-1 activation and hepatic lipid accumulation. In conclusion, Tlr4-mutant mice are resistant to acute alcohol-induced hepatic SREBP-1 activation and hepatic lipid accumulation.
Highlights
LPS in plasma[22,23]
We demonstrate for the first time that TLR4-derived ROS is partially involved in acute alcohol-induced hepatic Sterol-regulatory element binding protein (SREBP)-1 activation and hepatic lipid accumulation
Increasing evidence has demonstrated that de novo fatty acid and TG synthesis plays an important role in hepatic lipid accumulation[3]
Summary
LPS in plasma[22,23]. Acute alcohol intoxication induced hepatic lipid accumulation[24,25]. Whether TLR4 is involved in acute alcohol-induced hepatic lipid accumulation is not fully understood. We analyzed the effects of acute alcohol intoxication on hepatic lipid accumulation in Tlr4-wild-type and Tlr4-mutant-type mice. Our results showed that Tlr4-mutant mice are resistant to acute alcohol-induced hepatic SREBP-1 activation and hepatic lipid accumulation. We demonstrate for the first time that TLR4-derived ROS is partially involved in acute alcohol-induced hepatic SREBP-1 activation and hepatic lipid accumulation
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