Liver diseases affect millions of people worldwide. In most developed countries, the incidence of viral hepatitis is waning as a result of modern advances in disease prevention, diagnosis, and therapies. Expanded programmes for systematic immunisation against hepatitis B virus have also significantly brought down the number of new cases in many countries, including China. In contrast, with the improvement in living standards, the prevalence of metabolic liver diseases including non-alcoholic fatty liver disease and alcohol-related liver disease is set to rise, ultimately leading to more cases of end-stage liver diseases (liver failure, cirrhosis, and liver cancer). Over the past 30 years, visionary governments of major nations have provided strong incentives for basic/clinical research, vaccination programmes, and drug discovery and development in the field of hepatology. To get rid of her unflattering title as the ''leader in liver diseases", China has also made a serious effort to initiate nationwide preventive measures for liver diseases, global partnerships, and mentoring programmes for young hepatologists. Instrumental to such progress is the continuous support of the National Natural Science Foundation of China (NSFC), which has helped hepatology to thrive in virtually all research directions within the country. In this article, we seek to provide stimulating glimpses into the evolving liver disease epidemiology, institutional research profiles, funding landscape, and drug development trends in China, with an attempt to compare her status and achievements with those of the United States, European countries, and Japan.
Ethanol consumption can lead to hepatic steatosis that contributes to late-stage liver diseases such as cirrhosis and hepatocellular carcinoma. In this study, we investigated the potential protective effect of a flavonoid, luteolin, on ethanol-induced fatty liver development and liver injury. Six-wk-old male C57BL/6 mice were divided into 3 groups: a control group; a group exposed to alcohol by using a chronic and binge ethanol feeding protocol (EtOH); and a group that was administered daily 50 mg/kg of luteolin in addition to ethanol exposure (EtOH + Lut). A chronic and binge ethanol feeding protocol was used, including chronic ethanol consumption (1%, 2%, and 4% for 3 d, and 5% for 9 d) and a binge (30% ethanol) on the last day. Compared with the control group, the EtOH group had a significant elevation in serum concentrations of alanine aminotransferase (ALT) (561%), triglyceride (TG) (47%), and LDL cholesterol (95%), together with lipid accumulation in the liver. Compared with the EtOH group, the EtOH + Lut group had significant reductions in serum concentrations of ALT (43%), TG (22%), LDL cholesterol (52%), and lipid accumulation in the liver. Ethanol elevated liver expression of lipogenic genes including sterol regulatory element-binding protein 1c (Srebp1c) (560%), fatty acid synthase (Fasn) (190%), acetyl-CoA carboxylase (Acc) (48%), and stearoyl-CoA desaturase 1 (Scd1) (286%). Luteolin reduced ethanol-induced expression of these genes in the liver: Srebp1c (79%), Fasn (80%), Acc (60%), and Scd1 (89%). In cultured hepatocytes, luteolin prevented alcohol-induced lipid accumulation and increase in the expression of lipogenic genes. The transcriptional activity of the master regulator of lipid synthesis, sterol regulatory element-binding protein (SREBP), was enhanced by ethanol treatment (160%) and reduced by luteolin administration (67%). In addition, ethanol-induced reduction of AMP-activated protein kinase and SREBP-1c phosphorylation was abrogated by luteolin. Collectively, our study indicates that luteolin is effective in ameliorating ethanol-induced hepatic steatosis and injury.
Attenuated Blood-Brain Barrier Dysfunction by XQ-1H Following Ischemic Stroke in Hyperlipidemic Rats
Following ischemic stroke, blood-brain barrier (BBB) is disrupted and is further aggravated with the corresponding incidence of hyperlipidemia. BBB breakdown promotes inflammation infiltration into the brain, which exacerbates cerebral ischemic injury as a result. Here, we report that 10-O-(N,N-dimethylaminoethyl)-ginkgolide B methanesulfonate (XQ-1H), a novel analog of ginkgolide B, alleviates BBB breakdown in hyperlipidemic rats and protects endothelial cells against inflammatory response. Middle cerebral artery occlusion (MCAO) modeled ischemic stroke in rats. Before surgery, these rats were fed a cholesterol-rich diet to induce an experimental hyperlipidemic condition. Additionally, lipopolysaccharide (LPS) incubation with rat brain microvessel endothelial cells (rBMECs) was applied to mimic hyperlipidemia-induced inflammatory injury of BBB. The results indicated more severe infarct size, increased BBB permeability, excessive secretion of pro-inflammatory cytokines, and exaggerated inflammation infiltration of the brain in hyperlipidemic rats following MCAO when compared to rats fed with normal diet. XQ-1H protected BBB integrity, lessoned brain edema and inflammation penetration, downregulated MMP-9 and VCMA-1 expressions, and extenuated ischemic infarction. XQ-1H alleviated LPS-induced inflammatory response in rBMECs, characterized by promoting cell viability, inhibiting TNF-α, IL-1β, and IL-6 releasing, and downregulating NF-κB inflammatory signal and downstream proteins, such as VCAM-1 and iNOS. In conclusion, the present study shows that XQ-1H stabilizes BBB function following ischemic stroke in hyperlipidemic rats, and the possible mechanisms may be related to inflammation inhibition.
The aim is to investigate the effects of neuregulin-1beta (NRG-1beta) on expression of matrix metalloproteinase-9 (MMP-9) and neuron-specific enolase (NSE) in brain tissue in rats following cerebral ischemia/reperfusion. One hundred and fifty adult healthy male Wistar rats were used in the present study. Ten of them were randomized into a sham-operation group (n = 10) and the rest suffered surgery operation of middle cerebral artery occlusion/reperfusion with intraluminal monofilament suture from the left external-internal carotid artery. As a result, 100 rats of successful models were randomly divided into a control group (n = 50) and a treatment group (n = 50). Rats in the treatment group were injected 1.5% NRG-1beta at a dosage of 0.3 microg/kg from the stump of the left external carotid artery into the internal carotid artery. The expressions of MMP-9 and NSE proteins were determined by immunohistochemical, immunofluorescent double labeling, and Western blot assay. Ischemia/reperfusion induced morphological changes of brain tissue, including neurocyte shrinkage, chromatin condensation, nuclei fragment, and gliacyte and endothelial cell swelling. NRG-1beta obviously reduced and delayed the cerebral damage. With the duration of ischemia, the expression of MMP-9 gradually increased in the control group. NRG-1beta decreased the level of MMP-9 compared with that in the control group (P < 0.01). NSE immunoreaction transiently elevated at the early stage of cerebral ischemia insult, and then gradually decreased in the control group. The administration of NRG-1beta significantly increased the level of NSE, and thus delayed the time and the degree of neuron damage. There were statistical differences in contrast to the control group (P < 0.01). There was no relationship between the expressions of the two proteins. MMP-9 might aim at various target cells at different stages and contribute to the inflammatory reaction after cerebral ischemia-reperfusion insult. NRG-1beta inhibits the activation of MMP-9 and development of inflammation, enhances the activity of NSE, improves the microenvironment of neuron survivals, and delays the phase of irreversible neuron necrosis. Therefore, NRG-1beta may play a neuroprotective role in cerebral ischemia/reperfusion.
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