Optimization of Extraction Conditions of Pomegranate Peel Polyphenols and Its Protective Effect on Acute Alcoholic Liver Injury in Mice

[Objectives]This study was conducted to explore the optimization of ultrasonic-assisted organic solvent extraction of pomegranate peel polyphenols(PPPs),and to study the protective effect of PPPs on acute alcoholic liver injury in mice.[Methods]The optimal extraction conditions of PPPs were determined by single factor and orthogonal experiments,and an acute alcoholic liver injury model in mice was established.Bifendate was used as the positive control group to investigate the protective effect of low,medium and high doses of PPPs on acute alcoholic liver injury.[Results]The optimum extraction process parameters were followed as 60%ethanol concentration,solid-liquid ratio of 1:40(w/v),extraction temperature of 50℃,and extraction time of 1.5 h,and the yield was 1.42%.The results of animal experiments showed that PPPs could effectively reduce the degree of alcoholic liver injury in mice,reduce the levels of serum alanine aminotransferase(ALT)and aspartate aminotransferase(AST),and reduce the inflammation and necrosis of liver tissue in mice.Meanwhile,the total polyphenols from pomegranate peel also significantly reduced the expression levels of malondialdehyde(MDA),tumor necrosis factor(TNF-α)and interleukin-6(IL-6)in mice,and increased the levels of superoxide dismutase(SOD)and reduced glutathione(GSH)in liver tissue of mice,indicating its antioxidant and anti-inflammatory effects,further illustrating its protective effect on alcoholic liver injury.[Conclusions]PPPs could reduce the expression levels of TNF-α,IL-6 and MDA in mice,and increase the expression levels of SOD and GSH to achieve the protective effect on acute alcoholic liver injury in mice.This study will provide new ideas for the development of new anti-alcoholic liver injury drug resources.

Protective effect of gingerol dropping pills against alcoholic liver injury in mice

OBJECTIVE To prepare gingerol dropping pills and to investigate its protective effect on alcoholic liver injury. METHODS The prescription was selected by orthogonal design method and the effect of the option and ratio of ground substance,the temperature of drug. The hardness,circular degree,the tail formation and the dissolution time were studied. Totally 40 KM mice were randomly divided into control group,model group,gingerol dropping pill group(400 mg·kg^(-1)·d^(-1)) and positive control group(bifendate,150 mg·kg^(-1)·d^(-1)) of 10 mice each. The mice from the model and two drug groups were administrated with liqueur[0.15 mL/(10 g·d)]daily by gavage for 3 weeks,Two hours later,drug group mice were treated corresponding gingerol dropping pill and bifendate. Meanwhile,the control group were gavaged same amount of normal saline. Finally,when the model of acute alcoholic liver injury was established on the 22 stday,Biochemical indicators of ocular blood in mice were observed.We also observed the change of liver morphology. RESULTS Under optimum conditions,we can obtain dropping pills having circular shape,touching with hardness and short dissolution time. Compared with the control group,the levels of alanine transaminase(ALT),glutamic-oxaloacetic transaminase(AST) and malondialdehyde(MDA) in model group were obviously increased(P<0.01),While the activity of Superoxide dismutase(SOD) were decreased. In addition,In model group,mice liver disorders,hepatic lobule fusion,accompanying a large number of patchy sample liver cell vacuoles,various sizes of fat vacuoles appeared in cytoplasm and inflammatory cell infiltration were visible around the central vein. On the contrary,compared with the model group,drug groups attenuated or even reversed hepatic pathological changes. Form gingerol dropping pill group,an increase in hepatic SOD activity and serum ALT and AST activities were found and a significant decrease in hepatic MDA content were also observed(P<0.01). CONCLUSION The prescription of gingerol dropping pills was reasonable,and the preparation process was simple. Gingerol dropping pills can protect liver from alcoholic liver injury to some extend,and the mechanism may be related to its antioxidant effect.

Investigation of paeonol-geniposide on acute alcoholic liver injury based on uniform design method

Objective:To explore the optimal ratio and compatibility effect of paeonol-geniposide combination on acute alcoholic liver injury by uniform design.Methods:Lieber-DeCarli alcoholic liquid feed was used to induce acute alcoholic liver injury in mice.Uniform design was used to select the best dosage combination of paeonol and geniposide,and the related indexes of liver injury and oxidative stress were detected by kit.Serum inflammatory factors were detected by ELISA,and the expressions of p38 MAPK,JNK and NF-κB P65 related proteins in liver were detected by Western-blot.Results:The regression equation suggested that paeonol:geniposide=220:20 was the best ratio of paeonol and geniposide to resist alcoholic liver injury.Compared with the model group,the liver injury indexes and oxidation products of the paeonol+geniposide group decreased significantly,the antioxidant activity of liver tissue increased significantly,and the expression levels of p-p38 MAPK,p-JNK and NF-κB P65 protein decreased significantly.Conclusion:The optimal dosage of paeonolgeniposide was effectively optimized by uniform design and pharmacodynamic analysis.The combination of the two drugs could reduce the alcoholic liver injury by reducing the oxidative stress injury and inflammatory response in the liver tissue of mice,and its effect might be related to the targeting of p38 MAPK/JNK/NF-κB channel.

Study on Protection Mechanism of Viscum coloratum (Kom.) Nakai f. lutescens kitag Fruit Polysaccharides on Mice with Acute Alcoholic Liver Injury

This study was conducted to investigate the protective mechanism of V. coloratum fruit polysaccharides（ VCFP） on mice with acute alcoholic liver injury. Acute liver injury model was built by one-time alcohol gavage. The mice were randomly divided into VCFP-treated groups（ low-,medium-,and highdose）,alcohol model group and normal control group at the same time. VCFP-treated groups were administrated polysaccharide intragastrically continuously for4 weeks; and the alcohol model group and normal control group were administrated intragastrically the same amount of normal saline. The general situation and liver tissue morphological structure changes were observed. The results showed that the levels of ALT,AST,TC,TG,MDA contents,and CAT and GSH-Px activity of mice in the model group increased significantly（ P 〈 0. 01）,while the activity of SOD and weight and liver index decreased significantly（ P 〈 0. 01） compared with the normal control group. After 4 weeks of gavage,VCFP could significantly improve weight,liver index and SOD activity,and significantly reduce ALT,AST,TC and TG levels,MDA content and CAT and GSH-Px activity. These results suggest that VCFP can improve antioxidant enzyme activity,remove oxygen free radical and reduce membrane lipid peroxidation reaction,thereby protecting liver cells.

Protective effect of Solanum Nigrum Linn green fruit ethanolic extract on alcoholic liver injury in mice

Alcoholic liver injury is a liver disease caused by excessive alcohol consumption,which can lead to chronic liver disease death.Solanum Nigrum Linn taste bitter,cold,has the effect of clearing heat and detoxification,promoting blood and detumescence.Solanum Nigrum Linn fruit contains a variety of antioxidant enzymes,can remove the body produced by aerobic metabolism harmful substances.In this paper,a model of alcohol-induced liver injury in C57BL/6 mice was established to evaluate the protective effect of Solanum Nigrum Linn green fruit(SNGF)ethanolic extract on alcohol-induced liver injury.H&E staining and oil red O(ORO)staining showed that hepatic lobules were clearly demarcated,vacuoles were significantly reduced and lipid droplets were reduced in SNGF ethanolic extract treatment group.Serum levels of TC,TG,LDH,TBA,AKP,ALT and AST were decreased in the SNGF ethanolic extract treatment group,and SNGF ethanolic extract could clear reactive oxygen species(ROS)in time.MDA content was signifi cantly decreased after SNGF ethanolic extract treatment,while superoxide dismutase(SOD)and GSH-Px contents were increased after SNGF ethanolic extract treatment.These results suggest that SNGF ethanolic extract has a protective effect on alcohol-induced liver injury.

Structural Shifts of Gut Flora in Rat Acute Alcoholic Liver Injury and Jianpi Huoxue Decoction's(健脾活血汤)Effect Displayed by ERIC-PCR Fingerprint

Objective： To study the structural shifts of gut flora in rats with acute alcoholic liver injury （AALI）, and the effect of Jianpi Huoxue Decoction （健脾活血汤, JPHXD） on the gut flora. Methods： Thirty-six Sprague- Dawley rats were randomly allocated to the control, AALI and JPHXD groups equally. The rats in the control group were given water and those in AALI and JPHXD groups were given ethanol by intragastric gavage for 5 days, while rats in the JPHXD group were administered JPHXD simultaneously. The blood and liver tissue were collected at the end of the experiment. The activities of serum alkaline aminotransferase （ALT）, aspartate aminotransferase （AST）, hepatic γ/-glutamyitranspetidase （γ-GT） and hepatic tdglyceride （TG） levels were determined. Plasma endotoxin level in the portal vein was measured. Pathological changes of liver tissues were determined by hematoxylin and Eosin （HE） staining and oil red O staining. The total DNA of gut flora were extracted from fecal samples by Bead-beating method and determined by ERIC-PCR fingerprint method. The similarity cluster analysis and principal component analysis were performed to analyze the ERIC-PCR fingerprint respectively. Results： In the AALI group, the ratio of liver/body weight, activities of ALT, AST and hepatic γ-GT, amount of hepatic TG were elevated significantly compared with those in the control group （all P〈0.01）. JPHXD decreased the ratio, activities of ALT, AST, γ-GT and TG significantly compared with those in the AALI group （P〈0.05 or P〈0.01）. HE and oil red O staining showed that fat deposited markedly in liver tissue, while JPHXD alleviated pathological changes markedly. Plasma LPS level in rat portal vein in the AALI group increased significantly （P〈0.01）, but it was decreased significantly in the JPHXD group （P〈0.01）. The cluster analysis and principal component analysis of ERIC-PCR fingerprint showed that gut flora in the hALl group changed markedly, and JPHXD could recover gut flora to some extent. Conclusion： The structure of gut flora shifted markedly during acute alcoholic liver injury, JPHXD had prevention effect through the modification of gut flora.

Metadoxine inhibits the infiltration of macrophages and neutrophils into liver tissue in acute alcoholic liver injury

Alcohol consumption causes significant liver damage,including hepatitis,fibrosis,cirrhosis,and even primary liver carcinoma.Metadoxine(MTDX)is considered to be a beneficial treatment for alcoholic liver disease(ALD)because it accelerates the metabolism and elimination of ethanol.However,the underlying mechanism is not well understood.Here,the rat model of ALD was developed by feeding with 50%ethanol at the dose of 5 g/kg,and samples of serum and liver tissue were collected to test the levels of liver injury and inflammation and evaluate the hepatoprotective function of MTDX in alcohol-induced liver injury.Further investigation on the infiltration of immune cells was performed to understand the potential hepatoprotective mechanism of MTDX in the ALD model.The results showed that MTDX attenuated liver injury,evidenced by decreased levels of alanine transaminase(ALT),aspartate aminotransferase(AST),and alkaline phosphatase(ALP).Meanwhile,the liver proinflammatory environment was improved after MTDX treatment,evidenced by decreased levels of TNF-α,IL-6,and NLRP3 in the liver tissue.Furthermore,inhibited infiltrations of macrophages and neutrophils were observed in MTDX-treated ALD rats compared with the untreated ALD rats.Our results indicated that MTDX played an important role in preventing the progression of ALD,and the underlying mechanisms might be related to its function of attenuating liver inflammation by inhibiting immune cell infiltration.

Betaine inhibits Toll-like receptor 4 expression in rats with ethanol-induced liver injury

AIM:To test whether ethanol feeding could induce Toll-like receptor 4(TLR4)responses,assess the hepatoprotective effect of betaine and its inhibitive effect on TLR4 in animal models of alcoholic liver injury.METHODS:Forty-eight female Sprague-Dawley rats were randomly divided into four groups as control,model,low and high dose betaine groups.Except control group,all rats were fed with high fat-containing diet plus ethanol and fish oil gavages for 8 wk.Betaine was administered intragastrically after exposure of ethanol for 4 wk.The changes of liver histology were examined.The expression of TLR4 mRNA and protein was detected by RT-PCR and Western blotting,respectively.The serum aminotransferase activity alanine transarninase(ALT),aspartate aminotransferase(AST),serum endotoxin,and liver inflammatory factors tumor necrosis factor-α(TNF-α),interferon-γ(IFN-γ),interleukin-18(IL-18)were also assayed.RESULTS:Compared with control group,rats of model group developed marked liver injury,accompanied by an increase of ALT(159.41±7.74 U/L vs 59.47± 2.34 U/L,P<0.0001),AST(248.25±1.40 U/L vs 116.89±3.48 U/L,P<0.0001),endotoxin(135.37± 30.17 ng/L vs 44.15±7.54 ng/L,P<0.0001),TNF-α(20.81±8.58 pg/mL vs 9.34±2.57 pg/mL,P=0.0003),IFN-γ(30.18±7.60 pg/mL vs 16.86±9.49 pg/mL,P= 0.0039)and IL-18(40.99±8.25 pg/mL vs 19.73±9.31 pg/mL,P=0.0001).At the same time,the expression of TLR4 mRNA and protein was markedly induced in the liver after chronic ethanol consumption(1.45±0.07 vs 0.44±0.04,P<0.0001;1.83±0.13 vs 0.56±0.08,P<0.0001).Compared with model group,betaine feeding resulted in significant decreases of ALT(64.93 ±6.06 U/L vs 159.41±7.74 U/L,P<0.0001),AST(188.73±1.11 U/L vs 248.25±1.40 U/L,P<0.0001),endotoxin(61.80±12.56 ng/L vs 135.37±30.17 ng/L,P<0.0001),TNF-α(9.79±1.32 pg/mL vs 20.81± 8.58 pg/mL,P=0.0003),IFN-γ(18.02±5.96 pg/mL vs 30.18±7.60 pg/mL,P=0.0008)and IL-18(18.23±7.01 pg/mL vs 40.99±8.25 pg/mL,P<0.0001).Betaine also improved liver steatosis.The expression levels of TLR4 mRNA or protein in liver tissues were significantly lowered(0.62±0.04 vs 1.45±0.07,P<0.0001;and 0.65±0.06 vs 1.83±0.13,P<0.0001).There was a statistical difference of TLR4 mRNA and protein expression between high-and low-dose betaine groups(0.62±0.04 vs 0.73±0.05,P<0.0001,and 0.65±0.06 vs 0.81±0.09,P<0.0001).CONCLUSION:Betaine can prevent the alcoholinduced liver injury effectively and improve the liver function.The expression of TLR4 increases significantly in ethanol-fed rats and betaine administration can inhibit TLR4 expression.

Epigenetics of proteasome inhibition in the liver of rats fed ethanol chronically

AIM： TO examine the effects of ethanol-induced proteasome inhibition, and the effects of proteasome inhibition in the regulation of epigenetic mechanisms.METHODS： Rats were fed ethanol for 1 mo using the Tsukamoto-French model and were compared to rats given the proteasome inhibitor PS-341 （Bortezomib, Velcade^TM） by intraperitoneal injection. Microarray analysis and real time PCR were performed and proteasome activity assays and Western blot analysis were performed using isolated nuclei.RESULTS： Chronic ethanol feeding caused a significant inhibition of the ubiquitin proteasome pathway in the nucleus, which led to changes in the turnover of transcriptional factors, histone-modifying enzymes, and, therefore, affected epigenetic mechanisms. Chronic ethanol feeding was related to an increase in histone acetylation, and it is hypothesized that the proteasome proteolytic activity regulated histone modifications by controlling the stability of histone modifying enzymes, and, therefore, regulated the chromatin structure, allowing easy access to chromatin by RNA polymerase, and, thus, proper gene expression. Proteasome inhibition by PS-341 increased histone acetylation similar to chronic ethanol feeding. In addition, proteasome inhibition caused dramatic changes in hepatic remethylation reactions as there was a significant decrease in the enzymes responsible for the regeneration of S-adenosylmethionine, and, in particular, a significant decrease in the betaine-homocysteine methyltransferase enzyme. This suggested that hypomethylation was associated with proteasome inhibition, as indicated by the decrease in histone methylation.CONCLUSION： The role of proteasome inhibition in regulating epigenetic mechanisms, and its link to liver injury in alcoholic liver disease, is thus a promising approach to study liver injury due to chronic ethanol consumption.

Nuclear effects of ethanol-induced proteasome inhibition in liver cells

Alcohol ingestion causes alteration in several cellular mechanisms, and leads to inflammation, apoptosis, immunological response defects, and fibrosis. These phenomena are associated with significant changes in the epigenetic mechanisms, and subsequently, to liver cell memory. The ubiquitin-proteasome pathway is one of the vital pathways in the cell that becomes dysfunctionial as a result of chronic ethanol consumption. Inhibition of the proteasome activity in the nucleus causes changes in the turnover of transcriptional factors, histone modifying enzymes, and therefore, affects epigenetic mechanisms. Alcohol consumption has been associated with an increase in histone acetylation and a decrease in histone methylation, which leads to gene expression changes. DNA and histone modifications that result from ethanol-induced proteasome inhibition are key players in regulating gene expression, especially genes involved in the cell cycle, immunological responses, and metabolism of ethanol. The present review highlights the consequences of ethanol-induced proteasome inhibition in the nucleus of liver cells that are chronically exposed to ethanol.

Schisandra sphenanthera extract(Wuzhi Tablet)protects against chronic-binge and acute alcohol-induced liver injury by regulating the NRF2-ARE pathway in mice

Alcohol abuse leads to alcoholic liver disease and no effective therapy is currently available.Wuzhi Tablet(WZ), a preparation of extract from Schisandra sphenanthera that is a traditional hepatoprotective herb, exerted a significant protective effect against acetaminophen-induced liver injury in our recent studies, but whether WZ can alleviate alcohol-induced toxicity remains unclear. This study aimed to investigate the contribution of WZ to alcohol-induced liver injury by using chronic-binge and acute models of alcohol feeding. The activities of ALT and AST in serum were assessed as well as the level of GSH and the activity of SOD in the liver. The expression of CYP2E1 and proteins in the NRF2-ARE signaling pathway including NRF2, GCLC, GCLM, HO-1 were measured, and the effect of WZ on NRF2 transcriptional activity was determined. We found that both models resulted in liver steatosis accompanied by increased transaminase activities, but that liver injury was significantly attenuated by WZ. WZ administration also inhibited CYP2E1 expression induced by alcohol, and elevated the level of GSH and the activity of SOD in the liver. Moreover, the NRF2-ARE signaling pathway was activated by WZ andthe target genes were all upregulated. Furthermore, WZ significantly activated NRF2 transcriptional activity. Collectively, our study demonstrates that WZ protected against alcohol-induced liver injury by reducing oxidative stress and improving antioxidant defense, possibly by activating the NRF2-ARE pathway.

Research Progress on Pharmacological Effects of Betulin

Betulin is main component of triterpenoids in bark extract of Betula platyphylla,and has antibacterial,antiviral,liver protecting,cholagogic,antitumorus and other functions.This paper reviews the pharmacological effects and mechanisms of betulin.

IL-6-deficient Mice Are Susceptible to Ethanol-induced Hepatic Steatosis:IL-6 Protects against Ethanol-induced Oxidative Stress and Mitochondrial Permeability Transition in the Liver

Interleukin-6(IL-6)-deficient mice are prone to ethanol-induced apoptosis and steatosis in the liver;however, the underlying mechanism is not fully understood.Mitochondrial dysfunction caused by oxidative stress is an early event that plays an important role in the pathogenesis of alcoholic liver disease.Therefore,we hypothesize that the protective role of IL-6 in ethanol-induced liver injury is mediated via suppression of ethanol-induced oxidative stress and mitochondrial dysfunction.To test this hypothesis,we examined the effects of IL-6 on ethanol-induced oxidative stress,mitochondrial injury,and energy depletion in the livers of IL-6(-/-)mice and hepatocytes from ethanol-fed rats.Ethanol consumption leads to stronger induction of malondialdehyde(MDA) in IL-6(-/-)mice compared to wild-type control mice,which can be corrected by administration of IL-6.In vitro, IL-6 treatment prevents ethanol-mediated induction of reactive oxygen species(ROS),MDA,mitochondrial permeability transition(MPT),and ethanol-mediated depletion of adenosine triphosphate(ATP)in hepatocytes from ethanol-fed rats.Administration of IL-6 in vivo also reverses ethanol-induced MDA and ATP depletion in hepatocytes.Finally,IL-6 treatment induces metallothionein protein expression,but not superoxide dismutase and glutathione peroxidase in cultured hepatocytes.In conclusion,IL-6 protects against ethanol-induced oxidative stress and mitochondrial dysfunction in hepatocytes via induction of metailothionein protein expression,which may account for the protective role of IL-6 in alcoholic liver disease.Cellular & Molecular Immunology.2004;1(3):205-211.