Acute liver failure was induced in rats by successive administrations of thioacetamide over 3 days. At progressing stages of hepatic encephalopathy (HE), brains were fixed with microwave irradiation for analysis of metabolite levels or with formaldehyde for histopathological analysis. Metabolite levels were determined using 1H-nuclear magnetic resonance spectroscopy of perchloric acid extracts of the frontal cortex, parietal or occipital cortex, hippocampus, striatum, brain stem, and cerebellum. After thioacetamide treatment, thioacetamide and its metabolites were detected in the brains at levels that did not correlate with the stage of HE. No changes were observed in the levels of N-acetylaspartate, alanine, gamma-aminobutyric acid, aspartate, or inositol in any brain region after thioacetamide treatment. HE was accompanied by elevated glutamine, glucose, and lactate throughout the brain. At all stages of HE, taurine was decreased in the neocortex and hippocampus, and glutamate and choline compounds were decreased in the frontal cortex. None of the metabolite changes showed progression with the stage of HE. Progressing HE was accompanied by increasing neuronal injury in layer III of the neocortex, in the Purkinje cells of the cerebellum, and in the hippocampus, particularly in the CA4 sector. The similarity of this distribution of injury to that associated with excitotoxic injury suggests that metabolic abnormalities after acute hepatic failure may give rise to adverse effects at excitatory (glutamatergic) neuronal receptors, leading to neuronal injury and clinical symptoms of progressing encephalopathy in this model. However, neuronal injury and the presence of thioacetamide and its metabolites in the brain raise questions about the validity of thioacetamide-induced liver failure as a model for clinical HE.
To determine whether the inhibitory effects of ethanol on hepatic regeneration could be prevented by ciprofloxacin, a fluroquinolone antibiotic with gamma-aminobutyric acid (GABAA), receptor antagonist properties, adult, male Sprague-Dawley rats (n = 6-8/group) received intraperitoneal injections of saline, putrescine (a hepatic growth promoter, 50 mg/kg), or ciprofloxacin (100 mg/kg), followed 1 hour later by gastric gavage with saline or ethanol (5 g/kg). One hour post-gavage, all rats underwent a 70% partial hepatectomy (PHx). Hepatic regenerative activity was documented 24 hours post-PHx by 3H-thymidine incorporation into hepatic DNA (DNA synthesis), proliferating cell nuclear antigen staining, and hepatic tissue putrescine levels. Compared with healthy controls, DNA synthesis rates were significantly lower in ethanol-gavaged/saline-treated rats (22.7 +/- 4.4 x 10(3) vs. 12.3 +/- 6.9 x 10(3) DPM/mg DNA, respectively, P < .001) but unaltered in putrescine-(18.8 +/- 3.4 x 10(3) DPM/mg DNA) and ciprofloxacin-treated (18.3 +/- 2.6 x 10(3) DPM/mg DNA) rats. Hepatic proliferating cell nuclear antigen staining supported these findings. Hepatic putrescine levels also correlated with DNA synthesis data, being decreased in ethanol-gavaged/saline-treated rats (86 +/- 14 pmoles/mg tissue) compared with healthy controls (120 +/- 12 pmoles/mg, P < .01), ethanol-gavaged/putrescine-treated (112 +/- 14 pmoles/mg, P < .05) and ethanol-gavaged/ciprofloxacin-treated (125 +/- 17 pmoles/mg, P < .05) rats. To determine whether these effects resulted from GABAA receptor-mediated changes in liver membrane potentials, intracellular membrane potentials were recorded before and 1 hour after PHx in healthy control, ethanol-gavaged/saline-treated and ethanol-gavaged/ciprofloxacin-treated rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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