Oxidative stress is considered one of the major mechanisms underlying lipopolysaccharide (LPS)-induced acute liver failure (ALF). Tamoxifen has been reported to ameliorate LPS-induced ALF via the induction of monocyte to macrophage differentiation-associated 2 (Mmd-2). Whether antioxidant effects are involved remains unknown. Mice were given tamoxifen (TAM) once a day for 3 days. Twelve hours later, d-galactosamine (GaIN) and LPS were injected intraperitoneally to induce ALF. N-Acetylcysteine (NAC) was administered immediately after ALF induction as a positive control. The results showed that serum transaminases increased and hepatic antioxidants decreased significantly in the model group. ALF was alleviated markedly by TAM or NAC treatment. This demonstrated that ALF may be associated with excessive oxidative stress caused by decreased expression of antioxidant enzymes. Both TAM and NAC increased the levels and activity of these antioxidant enzymes significantly (p < 0.05). Hepatic Mmd-2 expression was downregulated in the control group while remaining stable or exhibiting elevated levels in the TAM or NAC groups. The results indicate that TAM may protect mice from GaIN/LPS-induced ALF through increased activity of antioxidant enzymes and upregulation of Mmd-2 expression.
The results demonstrated that sTNFRII-gAD therapeutically diminished the lethality induced by D-Gal/LPS, possibly through blocking hepatic apoptosis initiated by TNFα. Of note, sTNFRII-gAD was superior to sTNFRII-Fc in some respects, indicating a promising alternative for the therapeutic strategy against the diseases associated with excessive TNFα.
Bacterial lipopolysaccharide (LPS)-induced acute liver failure (ALF) is a common severe clinical syndrome in intensive care unit. No other methods are available for its prevention apart from supportive treatment and liver transplantation. Tamoxifen (TAM) was reported to attenuate ALF induced by excessive acetaminophen, while its effect on LPS-induced ALF remained unknown. For this, in the present study, we comprehensively assessed whether TAM can attenuate ALF induced by LPS/galactosamine (GaIN). Mice were given TAM once a day for three times. Twelve hours after the last treatment, mice were given LPS/GaIN (intraperitoneally [i.p.]). Survival, plasma transaminases, and histopathology were examined. Serum TNF-α and IL-1β were analyzed by ELISA. Hepatic apoptosis was analyzed by TUNEL and caspase-3 Western blotting, respectively. Compared to the model group, ALF induced by LPS/GaIN was alleviated remarkably following TAM administration, as evidenced by the improvement of survival (87.5% vs. 37.5%), hepatic swell, moderate transaminases, slightly increased serum TNF-α, IL-1β (P < 0.05), and moderate histopathology. In respect of apoptosis, severe hepatocellular apoptosis was reduced notably by TAM treatment confirmed by less TUNEL-positive hepatocytes and decreased caspase-3 cleavage. The results demonstrated that TAM could attenuate LPS/GaIN-induced ALF effectively, probably due to hepatic inflammation and apoptosis antagonism. Furthermore, it was the first report about the effect of TAM on LPS/GaIN-induced ALF.
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