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Idiosyncratic drug-induced liver injury (IDILI) has long posed a challenging and pivotal concern in pharmaceutical research. The complex composition of traditional Chinese medicine (TCM) has introduced a bottleneck in current research, hindering the elucidation of the component basis associated with IDILI in TCM. Using Epimedii Folium (EF) and Psoraleae Fructus (PF) as illustrative examples, this study endeavors to establish an in vitro evaluation model, providing a high-throughput and preliminary assessment method for screening components related to TCM-induced IDILI. A TNF-α-mediated HepG2 susceptible model was first established in this study, with the focus on the index components present in EF and PF. The release of lactate dehydrogenase (LDH) in the cell supernatant served as the detection index. A concentration-toxicity response curve was constructed, and the hepatotoxic components of EF and PF were identified utilizing the synergistic toxicity index. The LDH results unveiled the hepatotoxic effects of bavachin, backuchiol, isobavachin, neobavaisoflavone, psoralidin, isobavachalcone, icarisid I, and icarisid II on both normal and susceptible cells, categorizing these 8 components as both direct hepatotoxicity components and idiosyncratic hepatotoxicity components. Bavachin and neobavaisoflavone exhibited no hepatotoxicity on normal cells but demonstrated significant effects on susceptible cells, designating them as potential idiosyncratic susceptible hepatotoxicity components. The study further delineated that 10 EF components and 3 PF components were direct immune-promoting hepatotoxicity components. Additionally, 14 idiosyncratic immune-promoting hepatotoxicity components were identified, encompassing 10 EF components and 4 PF components, with neobavaisoflavone, bavachinin, and isobavachin being potential idiosyncratic susceptible immune-promoting hepatotoxicity components. Synergistic toxicity index results indicated that 13 idiosyncratic immune-promoting hepatotoxicity components (except anhydroicaritin) combined with bavachin demonstrated synergistic hepatotoxicity on susceptible cells. Notably, 3 idiosyncratic susceptible immune-promoting hepatotoxicity components combined with bavachin exhibited synergistic hepatotoxicity, with neobavaisoflavone displaying the highest synergistic toxicity index and bavachinin the lowest. In summary, this methodology successfully screens hepatotoxic and immune-promoting hepatotoxic components in EF and PF, distinguishing the types of components inducing hepatotoxicity, evaluating the hepatotoxicity degree of each component, and elucidating the synergistic relationships among them. Importantly, these findings align with the characteristics of IDILI. The method provides an effective model tool for the fundamental research of TCM-related IDILI components.
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ObjectiveTo investigate the attenuating effect of Dioscoreae Bulbiferae Rhizoma(DBR) processed with Phaseoli Radiati Semen(PRS) juice, and explore the attenuating mechanism based on ferroptosis of the main toxic target organ. MethodSixty male ICR mice were randomly divided into blank group, DBR group, water roasted DBR group(hereinafter referred to as water group), PRS juice-roasted DBR group 1(DBR-PRS 10∶1, stuffy moistening for 40 min, stir-fried at 130 ℃ for 18 min, hereinafter referred to as group 1), PRS juice-roasted DBR group 2(DBR-PRS 10∶1, stuffy moistening for 80 min, stir-fried at 100 ℃ for 14 min, hereinafter referred to as group 2), PRS juice-roasted DBR group 3(DBR-PRS=20∶3, stuffy moistening for 40 min, stir-fried at 160 ℃ for 14 min, hereinafter referred to as group 3). The raw and processed groups of DBR were gavaged with their corresponding 95% ethanol extract at a dose of 3 g·kg-1·d-1, while the blank group was gavaged with an equal volume of 0.5% sodium carboxymethyl cellulose, once a day for 14 consecutive days. Hematoxylin-eosin(HE) staining was used to observe the histopathological changes of mouse liver. Alanine aminotransferase(ALT) and aspartate aminotransferase(AST) levels in serum, as well as malondialdehyde(MDA), ferrous ions(Fe2+), reduced glutathione(GSH) and superoxide dismutase(SOD) levels in liver tissue were detected by the biochemical detection. Western blot was used to detect the expression of iron key proteins such as ferritin heavy chain 1(FTH1) and glutathione peroxidase 4(GPX4). ResultHE staining results showed that the liver tissue structure of the blank group was clear, the morphology of hepatocytes was normal, the cytoplasms of hepatocytes in the DBR group and water group were loose and vacuolar, with obvious pathological damages, and the pathologic damages of mice in the group 1-3 were significantly improved. Compared with the blank group, the levels of ALT, AST, MDA and Fe2+ in mice from the DBR group were significantly increased(P<0.01), while GSH and SOD levels were significantly reduced(P<0.01), and the protein expression levels of FTH1 and GPX4 were significantly decreased(P<0.01). Compared with the DBR group, the ALT, AST,MDA and Fe2+ levels of mice in the group 1-3 were significantly reduced(P<0.05, P<0.01), the GSH and SOD levels and the protein expression levels of FTH1 and GPX4 were significantly increased(P<0.01). Compared with the water group, the AST and MDA levels of mice in the group 1-3 were significantly reduced(P<0.05, P<0.01), the SOD level significantly increased(P<0.05, P<0.01), the FTH1 protein expression significantly increased(P<0.01), and the serum ALT level of mice in the group 2-3 significantly reduce(P<0.01), Fe2+ level significantly reduced(P<0.01), GSH level significantly increased(P<0.05, P<0.01), and GPX4 protein expression significantly increased(P<0.05, P<0.01). Among the group 1-3, the group 3 had the best detoxification effect. ConclutionProcessing with PRS juice can reduce the liver injury induced by DBR, and the mechanism may be related to the inhibition of ferroptosis in the liver.
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The incidence rate of drug-induced liver injury (DILI) is increasing year by year with unknown mechanisms, and the treatment methods for DILI mainly include drugs, liver support systems, and liver transplantation, all of which have certain limitations. Therefore, the search for safer and more effective treatment methods has become a research hotspot at present. Studies have shown that mesenchymal stem cells and their exosomes can alleviate liver injury by reducing liver inflammation, promoting hepatocyte proliferation and regeneration, inhibiting the apoptosis of hepatocytes, improving oxidative stress, and regulating immunity. This article briefly reviews the role of mesenchymal stem cells and their exosomes in the treatment of DILI, so as to provide a reference for further research.
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Polygonum multiflorum (PM), a commonly used Chinese herbal medicine in clinical practice, has been associated with frequent reports of liver injury in recent years, and the medication safety of PM has attracted more and more attention in China and globally. This article reviews the recent research advances in the signaling pathways and mechanisms of PM in causing drug-induced liver injury (DILI) and aims to provide new ideas for the proper and rational use of PM in clinical practice. The results show that PM is involved in the regulation of various signaling pathways, and it leads to the death of hepatocytes by destroying mitochondrial function, exacerbating bile acid accumulation, and inducing immune response, oxidative stress, and endoplasmic reticulum stress, thereby inducing the development and progression of DILI through multiple targets, pathways, and levels.
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Pharmacotherapy is the primary treatment method for hyperthyroidism. Antithyroid drugs can induce liver injury, and the diagnosis of drug-induced liver injury is mostly exclusive based on medical history collection, clinical symptoms, serum biochemistry, radiological examination, and histology. According to the severity of liver injury, drug-induced liver injury can be classified into mild, moderate, severe, and fatal degrees. Drug withdrawal may not be necessary for patients with mild liver injury, but regular monitoring of liver function is required; in severe cases, patients may develop liver failure, which may lead to a mortality rate, and early identification, timely drug withdrawal, and reasonable pharmacotherapy can help to avoid fatal consequences. The treatment principles of liver injury induced by antithyroid drugs include promoting the recovery of liver injury, preventing the severe exacerbation and chronicity of liver injury, and reducing the risk of death. Standardized medication, timely monitoring, early identification, and early treatment are important measures for the prevention and treatment of liver injury induced by antithyroid drugs.
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ObjectiveTo investigate the influencing factors for the clinical outcome of patients with drug-induced liver injury (DILI), and to establish a nomogram prediction model for validation. MethodsA retrospective analysis was performed for the general information and laboratory data of 188 patients with DILI who were admitted to Heilongjiang Provincial Hospital Affiliated to Harbin Institute of Technology from January 2017 to December 2022, and according to their clinical outcome, they were divided into good outcome group with 146 patients and poor outcome group with 42 patients. The independent-samples t test was used for comparison of normally distributed continuous data between two groups, and the Mann-Whitney U test was used for comparison of non-normally distributed continuous data between two groups; the chi-square test was used for comparison of categorical data between two groups. Univariate and multivariate Logistic regression analyses were used to investigate the independent influencing factors for the clinical outcome of DILI patients. R Studio 4.1.2 software was used to establish a nomogram model, and calibration curve, receiver operating characteristic (ROC) curve, and decision curve analysis (DCA) were used to perform internal validation. ResultsThe univariate Logistic regression analysis showed that liver biopsy for the diagnosis of DILI, platelet count, cholinesterase, albumin, prothrombin time activity, IgM, and IgG were associated with adverse outcomes in patients with DILI. The multivariate Logistic regression analysis showed that liver biopsy for the diagnosis of DILI (odds ratio [OR]=0.072, 95% confidence interval [CI]: 0.022 — 0.213, P<0.001), clinical classification (OR=0.463, 95%CI: 0.213 — 0.926, P=0.039), alanine aminotransferase (OR=0.999, 95%CI: 0.998 — 1.000, P=0.025), prothrombin time activity (OR=0.973, 95%CI: 0.952 — 0.993, P=0.011), and IgM (OR=1.456, 95%CI: 1.082 — 2.021, P=0.015) were independent influencing factors for clinical outcome in patients with DILI. The nomogram prediction model was established, and after validation, the calibration curve was close to the reference curve. The area under the ROC curve was 0.829, and the DCA curve showed that the model had good net clinical benefit. ConclusionThe nomogram prediction model established in this study has good clinical calibration, discriminative ability, and application value in evaluating the clinical outcome of patients with DILI.
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ObjectiveTo analyze the effects of new integration processing method in producing area and traditional method on the composition and pharmacological action of Polygoni Multiflori Radix Praeparata(PMRP), and to illustrate the advantages of toxicity reducing and efficacy enhancing of the decoction pieces prepared by the new method. MethodFresh Polygoni Multiflori Radix(PMR) was taken from Dao-di producing area, and was processed by new integration processing method in producing area(steaming with black bean juice under pressure of 0.1 MPa and temperature at 120 ℃ for 10.5 h) and traditional method(steaming with black bean juice under water for 36 h), respectively. Samples were collected during the processing process of the two methods, For new method, the samples were collected at 0.5, 3, 5.5, 8, 10.5 h, separately. For traditional method, the samples were collected every 4 h. High performance liquid chromatography(HPLC) was used to establish fingerprint and identify common peaks, the content of polysaccharides was determined by anthrone-sulfuric acid colorimetry at 627 nm, and the contents of anthraquinones and stilbene glycosides in different processed products were determined according to the methods under the item of determination of PMR and PMRP in the 2020 edition of Chinese Pharmacopoeia. In pharmacological experiments, 90 SD rats were randomly divided into 9 groups with 10 in each group(half of male and half of female), including the blank group, and raw products, 24 h processed products under atmospheric pressure, 30 h processed products under atmospheric pressure, 8 h processed products under high pressure groups with low and high dosages(4.125, 16.5 g·kg-1). Rats were given the drug by gavage for 29 d with once a day, blood was collected from the abdominal aorta after the last administration, and the serum was isolated, the body mass and liver mass of rats were weighed and the organ index was calculated. The pathological change of liver tissue was observed by hematoxylin-eosin(HE) staining, and biochemical methods were used to detect the contents of aspartate aminotransferase(AST), alanine aminotransferase(ALT), alkaline phosphatase(ALP), γ-glutamyltransferase(GGT), lactic dehydrogenase(LDH) in serum which used as liver function indicators and the levels of superoxide dismutase(SOD), malondialdehyde(MDA), glutathione peroxidase(GSH-Px) in brain tissues which used as oxidation indicators. ResultA total of 14 common peaks were identified in the fingerprint of PMR, PMRP prepared by new method and traditional method, and three of the peaks were designated as stilbene glycoside, emodin and emodin methyl ether, respectively. The characteristic peak areas of each processed products changed significantly from 0 min to 25 min, indicating that different processing methods had an effect on the contents of components with high polarity in PMRP, and the trend of the changes of the two methods was similar, with the higher degree of change in the new method. The determination results showed that compared with the traditional method, the content of polysaccharide(a kind of beneficial component in PMRP obtained by the new method) significantly increased, while the contents of stilbene glycoside and bound anthraquinone(liver-damaging ingredients) significantly decreased. The pharmacological results showed that compared with the blank group, AST and LDH levels of male rats in the low and high dose groups of 24 h processed products under atmospheric pressure and AST level of male rats in the low and high dose groups of 8 h processed products under high pressure were significantly reduced(P<0.05, P<0.01), while compared with the raw product groups with the same dose, AST and LDH levels of male rats in the low dose group of 30 h processed products under atmospheric pressure were significantly reduced(P<0.05, P<0.01), the AST levels of male rats in the low and high dose groups of 8 h processed products under high pressure were significantly decreased(P<0.01), and there was no statistical significance in the differences of biochemical indexes of female rats in each administration group as compared with those of the blank group. ConclusionThe new integration processing method in producing area of PMRP can reach the quality of relevant regulations in 8 h. The processed products obtained by this method have more advantages than the traditional method in terms of toxicity reducing and efficacy enhancing, and energy saving to avoid the loss of ingredients, which can provide ideas for the production of high-quality decoction pieces of PMRP, and the integration processing method in producing area of other roots and rhizomes of traditional Chinese medicines.
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@#Objective To evaluate the protective effect of the activator of silent information regulator 2-related enzymes 1(SIRT1),SRT1720,on liver injury induced by acetaminophen(APAP)in mice and explore its mechanism. Methods Forty male C57BL/6J mice were randomly divided into normal control group,SRT1720 treatment group,APAP treatment group,and APAP + SRT1720 treatment group,with 10 mice in each group. Mice in SRT1720 and APAP + SRT1720 groups were given SRT1720(30 mg/kg body mass)by intragastric administration,while normal saline of equal volume was given by intragastric administration in control and APAP groups,once a day for 5 days;On the 6th day,mice in APAP and APAP + SRT1720 groups were injected i. p. with APAP(325 mg/kg body mass),while those in control and SRT1720 groups with equal volume of normal saline. After 24 hours,the peripheral blood was taken and the serum was separated,which were detected for the levels of alanine aminotransferase(ALT)and aspartate aminotransferase(AST)by the corresponding kits;The liver tissue of mice was taken aseptically,observed for the pathological changes by HE staining,detected for the mRNA transcription levels of GRP78,PERK,eIF2 α,ATF4 and CHOP genes related to PERK-eIF2α-CHOP signaling pathway by RT-qPCR and detected for the relative expression levels of these corresponding proteins and Caspase12 protein by Western blot. Results Compared with normal control group,the serum ALT and AST levels of mice in APAP group significantly increased(t = 55. 21 and34. 29 respectively,each P < 0. 01);significant necrosis of hepatocytes was observed in liver tissue,the structure of hepatic lobules changed significantly,and the swelling and deformation of hepatocytes in some areas were serious;the mRNA transcription and relative protein expression levels of GRP78,PERK,eIFα,ATF4 and CHOP genes increased significantly(t = 9. 85~33. 89,each P < 0. 05)and the relative expression level of Caspase12 protein increased significantly(t = 11. 78,P < 0. 01). Compared with APAP group,the serum ALT and AST levels of mice in APAP + SRT1720 group decreased significantly(t = 42. 92 and 18. 02 respectively,each P < 0. 01);the degree of hepatocyte injury was obviously reduced and the number of swollen and deformed cells also significantly decreased;the mRNA transcription and relative protein expression levels of GRP78,PERK,eIF2α,ATF4 and CHOP decreased significantly(t = 6. 19~22. 43,each P < 0. 05)and the expression level of Caspase12 protein showed no significant decrease(t = 0. 34,P > 0. 05). Conclusion SRT1720improved APAP-induced liver injury in mice,possibly by inhibiting PERK-eIF2α-CHOP signaling pathway in endoplasmic reticulum stress(ERS).
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Drug-induced liver injury is caused by the drug itself and/or its metabolites during drug use or occurs due to hypersensitivity or reduced tolerance to the drug in a particular body type. In the last three years of the diagnosis and treatment of coronavirus disease 2019 (COVID-19), antiviral drugs have played a very important role, but there are many reports on liver injury caused by anti-COVID-19 drugs in China and globally, with unknown pathogenesis of liver injury caused by such drugs. This article reviews the research advances in the types of antiviral drugs for COVID-19 and their mechanism in inducing liver injury, in order to promote the rational use of antiviral drugs.
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As a commonly used traditional Chinese medicine in clinical practice, Tripterygium wilfordii has the functions of dispelling wind and removing dampness, detoxicating and destroying parasites, detumescence, pain relief, promoting blood circulation, and dredging collateral. Modern pharmacological studies show that it also has other functions such as anticancer, anti-inflammation, and immunosuppression. It has been widely used to treat autoimmune diseases, renal diseases, and tumors. T. wilfordii contains a variety of chemical components, among which triptolide (TP) can cause varying degrees of damage to human digestive, circulatory, reproductive, and other systems, with liver injury being the most common one, which greatly limits the development of TP in new drug research and industrial application. Therefore, the authors focused on the research hotspot of TP-induced liver injury and summarized relevant Chinese and international literature regarding the clinical manifestations, injury mechanisms, and detoxification strategies of TP-induced liver injury. This helps to provide a scientific basis for the clinical drug safety and scientific drug supervision of TP. The clinical manifestations of TP-induced liver injury are mostly abnormal transaminases, loss of appetite, nausea and vomiting, anorexia, yellow staining of skin and sclera, and yellow urine. The mechanisms of the above clinical manifestations involve apoptosis, oxidative stress, influence on cytochrome P450 superfamily, macrophage polarization, regulation of biological clock gene Clock, etc. Among them, cell apoptosis is related to neurogenic locus notch homolog protein 1 (Notch1), dynamin-related protein 1 (Drp1)-cytochrome C (Cyt C), phosphatidylinositide 3-kinases (PI3K)/protein kinase B (Akt), mitogen-activated protein kinase (MAPK), tumor suppressor protein 53 (p53), Fas cell surface death receptor (Fas)/Caspase-8, and other signaling pathways. Oxidative stress is related to inhibition of nuclear factor-erythroid 2-related factor 2 (NRF2) signaling pathway, promotion of cytochrome P450 2E1 (CYP2E1) expression, and excessive accumulation of reactive oxygen (ROS). The influence of the cytochrome P450 superfamily is manifested as reducing the substrate affinity, activity, and expression of cytochrome P450 3A (CYP3A), cytochrome P450 2C9 (CYP2C9), cytochrome P450 2C19 (CYP2C19), and cytochrome P450 1A2 (CYP1A2). Promoting the transformation of macrophages into the M1 type is related to the secretion of inflammatory factors and the accumulation of endotoxin, and the internal rhythmic regulation of the biological clock gene Clock, is related to the expression of cytochrome P450 3A11 (CYP3A11) metabolic enzyme. The detoxification strategies in the clinical application include herbs-processing detoxification strategy and drug-pairing detoxification. The traditional Chinese medicines and monomers that are helpful for detoxification include Glycyrrhiza uralensis, Paeonia lactiflora, Lysimachia christinae, Rehmannia glutinosa, saffron, and paeoniflorin. The reviews and discussion about these topics can help to provide more references for related research and clinical application of TP.
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@#BACKGROUND: Resuscitative endovascular balloon occlusion of the aorta (REBOA) can temporarily control traumatic bleeding. However, its prolonged use potentially leads to ischemia-reperfusion injury (IRI). Partial REBOA (pREBOA) can alleviate ischemic burden; however, its security and effectiveness prior to operative hemorrhage control remains unknown. Hence, we aimed to estimate the efficacy of pREBOA in a swine model of liver injury using an experimental sliding-chamber ballistic gun. METHODS: Twenty Landrace pigs were randomized into control (no aortic occlusion) (n=5), intervention with complete REBOA (cREBOA) (n=5), continuous pREBOA (C-pREBOA) (n=5), and sequential pREBOA (S-pREBOA) (n=5) groups. In the cREBOA and C-pREBOA groups, the balloon was inflated for 60 min. The hemodynamic and laboratory values were compared at various observation time points. Tissue samples immediately after animal euthanasia from the myocardium, liver, kidneys, and duodenum were collected for histological assessment using hematoxylin and eosin staining. RESULTS: Compared with the control group, the survival rate of the REBOA groups was prominently improved (all P<0.05). The total volume of blood loss was markedly lower in the cREBOA group (493.14±127.31 mL) compared with other groups (P<0.01). The pH was significantly lower at 180 min in the cREBOA and S-pREBOA groups (P<0.05). At 120 min, the S-pREBOA group showed higher alanine aminotransferase (P<0.05) but lower blood urea nitrogen compared with the cREBOA group (P<0.05). CONCLUSION: In this trauma model with liver injury, a 60-minute pREBOA resulted in improved survival rate and was effective in maintaining reliable aortic pressure, despite persistent hemorrhage. Extended tolerance time for aortic occlusion in Zone I for non-compressible torso hemorrhage was feasible with both continuous partial and sequential partial measures, and the significant improvement in the severity of acidosis and distal organ injury was observed in the sequential pREBOA.
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Psoraleae Fructus (PF) is a non-toxic Chinese herbal medicine, while the liver injury caused by PF has aroused wide concern in recent years. At present, animal experiments and in vitro studies have been carried out to explore the mechanism, targets, and toxic components of PF in inducing liver injury, which, however, have differences compared with the actual conditions in clinical practice, and there are still some potential hepatotoxic components and targets of PF that have not been discovered. With the continuous progress in systems biology, establishing the drug-induced liver injury model and the liver injury prediction model based on network toxicology can reduce the cost of animal experiments, improve the toxicity prediction efficiency, and provide new tools for predicting toxic components and targets. To systematically explain the characteristics of liver injury in the application of PF and explore the potential hepatotoxic components and targets of PF, we reviewed the related articles published by China National Knowledge Infrastructure (CNKI), Wanfang Data, VIP, and PubMed from 1962 to 2021 and analyzed the characteristics and influencing factors of liver injury caused by PF in the patients. Furthermore, we summarized the chemical components of PF and the components entering blood. By reviewing the mechanism, targets, and components of PF in inducing liver injury that were discovered by in vivo and in vitro experiments, we summarized the known compounds in PF that may cause liver injury. Finally, the current methods for building the prediction model of PF-induced liver injury were summarized, and the predicted toxic components and targets were introduced. The possible factors of PF in causing liver injury were explained from three aspects: clinical characteristics, preclinical studies, and computer-assisted network prediction, which provide a reference for predicting the risk of PF-induced liver injury.
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SUMMARY: Liver transplantation is the only available method to treat liver failure induced by chronic liver injury. We sought to determine whether the angiotensin-converting enzyme inhibitor, captopril, can inhibit the development of chronic liver injury induced by the hepatotoxic agent thioacetamide (TAA) in association with the suppression of inflammation (hsCRP, TNF-α, and IL-6) / hypoxia- inducible factor 1-alpha (HIF-1α) / profibrosis (TIMP-1, MMP-9, and α-SMA) axis that mediates liver injury. Therefore, the model group of rats was injected for eight weeks with 200 mg/kg TAA starting at week two. The protective group was pretreated with 150 mg/ kg captopril daily for two weeks prior to TAA injections and continued receiving both capropril and TAA agents until being humanely scrificed at week 10. We observed a substantial damage to liver tissue in the model group as demonstrated by a significant (p<0.0001) increase in blood and hepatic tissue levels of high sensitivity C-reactive protein (hsCRP), tumor necrosis factor-a (TNF-α), interleukin- 6 (L-6), HIF-1α, tissue inhibitor of metalloproteinases-1 (TIMP-1), matrix metalloproteinase-9 (MMP-9), alpha-smooth muscle actin (α-SMA), alanine aminotransferase (ALT), and aspartate aminotransferase (AST). All these parameters were significantly (p<0.0244) protected by captopril. Also, a significant (p<0.0001) positive correlation was observed between a-SMA (profibrosis) and the serum and tissue levels of hsCRP, TNF-α, HIF-1α, TIMP-1, MMP-9, and ALT. Thus, these findings suggest that the induction of chronic liver injury by the hepatotoxic compound, TAA is associated with the upregulation of inflammation/HIF-1α/profibrosis, with captopril exhibiting beneficial hepatic pleotropic effects.
El trasplante de hígado es el único método disponible para tratar la insuficiencia hepática inducida por una lesión hepática crónica. Buscamos determinar si el inhibidor de la enzima convertidora de angiotensina, captopril, puede inhibir el desarrollo de lesión hepática crónica inducida por el agente hepatotóxico tioacetamida (TAA) en asociación con la supresión de la inflamación (hsCRP, TNF-α e IL-6) / factor inducible por hipoxia 1-alfa (HIF-1α) / profibrosis (TIMP-1, MMP-9 y α- SMA) eje que media la lesión hepática. Por lo tanto, al grupo modelo de ratas se le inyectó durante ocho semanas 200 mg/kg de TAA a partir de la semana dos. El grupo protector fue pretratado con 150 mg/kg de captopril al día durante dos semanas antes de las inyecciones de TAA y continuó recibiendo capropril y agentes TAA hasta que fue sacrificado en la semana 10. Observamos un daño sustancial en el tejido hepático en el grupo modelo, como lo demuestra un aumento significativo (p<0,0001) de los niveles en sangre y tejido hepático de proteína C reactiva de alta sensibilidad (hsCRP), factor de necrosis tumoral-α (TNF-a), interleucina-6 (L-6), HIF-1α, inhibidor tisular de metaloproteinasas-1 (TIMP-1), metaloproteinasa de matriz-9 (MMP-9), actina de músculo liso alfa (α-SMA), alanina aminotransferasa (ALT) y aspartato aminotransferasa (AST). Todos estos parámetros estaban significativamente (p<0,0244) protegidos por captopril. Además, se observó una correlación positiva significativa (p<0,0001) entre α-SMA (profibrosis) y los niveles séricos y tisulares de hsCRP, TNF-α, HIF-1α, TIMP- 1, MMP-9 y ALT. Por lo tanto, estos hallazgos sugieren que la inducción de daño hepático crónico por el compuesto hepatotóxico, TAA, está asociada con la regulación al alza de la inflamación/HIF-1α/profibrosis, con captopril exhibiendo efectos pleotrópicos hepáticos beneficiosos.
Subject(s)
Animals , Male , Rats , Thioacetamide/toxicity , Captopril/administration & dosage , Chemical and Drug Induced Liver Injury/drug therapy , Fibrosis , Immunohistochemistry , Blotting, Western , Actins , Tumor Necrosis Factor-alpha , Tissue Inhibitor of Metalloproteinase-1 , Matrix Metalloproteinase 9 , Disease Models, Animal , Hepatocyte Nuclear Factor 1-alpha , Real-Time Polymerase Chain Reaction , Matrix Metalloproteinase Inhibitors , Inflammation , Liver/drug effectsABSTRACT
Naproxen is a widely used nonsteroidal anti-inflammatory drug (NSAID) in pediatric population, used for mild-to-moderate pains, arthritis, and other immune-mediated disorders. It rarely causes clinically apparent liver injury in the adult population taking high doses of the drug over a prolonged period and is reported even rarer in pediatric population. We present a case of drug-induced liver injury (DILI) in a 13-year-old girl taking naproxen in therapeutic doses for juvenile rheumatoid arthritis. There was a complete recovery of liver function following discontinuation of naproxen therapy.
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Acetaminophen is a drug widely used in the world and easily accessible due to its antipyretic, analgesics characteristics, among others (1); however, exposure to toxic doses causes organic damage and even death. We present the case of an 18-year-old female patient who ingested 40 grams of acetaminophen and developed severe liver dysfunction, being treated with N-acetylcysteine (NAC) antidotal therapy according to the simplified scheme: Scottish and Newcastle Anti-emetic Pretreatment Paracetamol Poisoning Study Regimen (SNAP), presenting improvement in the clinical course and decrease in liver profiles, coagulation disorder, INR and resolution of the condition.
El acetaminofén es un fármaco ampliamente usado en el mundo y de fácil acceso por sus características antipiréticas, analgésicas, entre otras (1); sin embargo la exposición a dosis tóxicas produce daños a nivel orgánico e incluso la muerte. Presentamos el caso de una paciente mujer de 18 años que ingirió 40 gramos de acetaminofén y desarrolló injuria hepática severa, siendo tratada con terapia antidotal de N-acetilcisteína (NAC) según el esquema simplificado: Scottish and Newcastle Anti-Emetic Pretreatment Paracetamol Poisoning Study Regimen (SNAP), presentando mejoría del curso clínico y disminución de los perfiles hepáticos, trastorno de coagulación, INR y resolución del cuadro.
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ObjectiveTo evaluate the lipid-lowering activity of Quansanqi tablets(QSQ), an innovative new drug of Panax notoginseng. MethodMice and golden hamsters were used to establish a hyperlipidemia model by injecting egg yolk milk and feeding high-fat diets. The levels of total cholesterol (TC),triglyceride (TG),low-density lipoprotein cholesterol (LDL-C), and high-density lipoprotein cholesterol (HDL-C) were detected, and liver function indicators [alanine aminotransferase (ALT), aspartate amino-transferase (AST), and alkaline phosphatase (ALP)] of golden hamsters were detected. Hematoxylin-eosin (HE) staining was used to observe the degree of liver injury. In the experiments, a normal group, a model group, an atorvastatin calcium group, and low-, medium-, and high-dose QSQ groups (0.32, 0.64, 1.28 g·kg-1 for mice, and 0.16, 0.32, 0.64 g·kg-1 for golden hamsters) were set up. ResultCompared with the normal group, the acute hyperlipidemia model mice showed increased TC, TG, and LDL-C levels (P<0.01), and the hyperlipidemia model mice showed increased TC and LDL-C levels (P<0.01). Additionally, the hyperlipidemia model golden hamsters showed increased serum TC, TG, LDL-C, ALT, AST, and ALP levels (P<0.05, P<0.01). HE staining indicated the presence of fat accumulation in the liver, accompanied by inflammatory reactions. Compared with the model group, QSQ of various doses could reduce TC, TG, and LDL-C levels in acute hyperlipidemia model mice (P<0.05, P<0.01), and the high-dose QSQ could reduce TC and LDL-C levels (P<0.01) and increase HDL-C level (P<0.05) in hyperlipidemia model mice, as well as reduce TC, TG, and LDL-C levels in hyperlipidemia model golden hamsters (P<0.05, P<0.01), especially in the first two weeks. In addition, atorvastatin calcium could further increase ALT, AST, and ALP levels (P<0.05, P<0.01) and aggravate liver function damage, while low-dose QSQ could reduce ALT, AST, and ALP (P<0.05), and medium- and high-dose QSQ did not cause further liver function damage. ConclusionQSQ have a significant lipid-lowering effect on different hyperlipidemia model animals and can improve liver function and liver injury.
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Objective: To investigate the role of Keap1/Nrf2/HO-1 signaling pathway in liver injury induced by neodymium oxide (Nd(2)O(3)) in mice. Methods: In March 2021, forty-eight SPF grade healthy male C57BL/6J mice were randomly divided into control group (0.9% NaCl), low dose group (62.5 mg/ml Nd(2)O(3)), medium dose group (125.0 mg/ml Nd(2)O(3)), and high dose group (250.0 mg/ml Nd(2)O(3)), each group consisted of 12 animals. The infected groups were treated with Nd(2)O(3) suspension by non-exposed tracheal drip and were killed 35 days after dust exposure. The liver weight of each group was weighed and the organ coefficient was calculated. The content of Nd(3+) in liver tissue was detected by inductively coupled plasma mass spectrometry (ICP-MS). HE staining and immunofluorescence was used to observe the changes of inflammation and nuclear entry. The mRNA expression levels of Keap1, Nrf2 and HO-1 in mice liver tissue were detected by qRT-PCR. Western blotting was used to detect the protein expression levels of Keap1 and HO-1. The contents of catalase (CAT), glutathione peroxidase (GSH-Px) and total superoxide dismutase (T-SOD) were detected by colorimetric method. The contents of interleukin 1β (IL-1β), interleukin 6 (IL-6) and tumor necrosis factor α (TNF-α) were determined by ELISA. The data was expressed in Mean±SD. Two-independent sample t-test was used for inter-group comparison, and one-way analysis of variance was used for multi-group comparison. Results: Compared with the control group, the liver organ coefficient of mice in medium and high dose groups were increased, and the Nd(3+) accumulation in liver of mice in all dose groups were significantly increased (P<0.05). Pathology showed that the structure of liver lobules in the high dose group was slightly disordered, the liver cells showed balloon-like lesions, the arrangement of liver cell cords was disordered, and the inflammatory exudation was obvious. Compared with the control group, the levels of IL-1β and IL-6 in liver tissue of mice in all dose groups were increased, and the levels of TNF-α in liver tissue of mice in high dose group were increased (P<0.05). Compared with the control group, the mRNA and protein expression levels of Keap1 in high dose group were significantly decreased, while the mRNA expression level of Nrf2, the mRNA and protein expression levels of HO-1 were significantly increased (P<0.05), and Nrf2 was successfully activated into the nucleus. Compared with the control group, the activities of CAT, GSH-Px and T-SOD in high dose group were significantly decreased (P<0.05) . Conclusion: A large amount of Nd(2)O(3) accumulates in the liver of male mice, which may lead to oxidative stress and inflammatory response through activation of Keap1/Nrf2/HO-1 signal pathway. It is suggested that Keap1/Nrf2/HO-1 signal pathway may be one of the mechanisms of Nd(2)O(3) expose-induced liver injury in mice.
Subject(s)
Mice , Male , Animals , NF-E2-Related Factor 2/metabolism , Tumor Necrosis Factor-alpha/metabolism , Kelch-Like ECH-Associated Protein 1/metabolism , Interleukin-6/metabolism , Mice, Inbred C57BL , Oxidative Stress , Liver/metabolism , Metals, Rare Earth , Signal Transduction , Superoxide Dismutase/metabolism , RNA, Messenger/metabolismABSTRACT
Yinchenzhufu decoction (YCZFD) is a classic formula for treating Yin Huang syndrome, which can improve liver injury caused by cholestasis. However, the mechanism of action of YCZFD still remains unclear. This article used network pharmacology, molecular docking, animal experiments, and molecular biology methods to explore the mechanism of YCZFD in treating liver injury caused by cholestasis. A mouse model of acute cholestasis induced by lithocholic acid was used to investigate the effects of YCZFD on liver injury. The experimental procedures described in this paper were reviewed and approved by the Ethical Committee at the Shanghai University of Traditional Chinese Medicine (approval NO. PZSHUTCM190823002). The results showed that YCZFD could reduce the levels of blood biochemical indicators and improve hepatocyte damage of cholestatic mice. Then, multiple databases were used to predict the corresponding targets of YCZFD active components on cholestatic liver injury. An intersection target protein-protein interaction (PPI) networks based on String database and Cytoscape software was used to demonstrate the possible core targets of YCZFD against cholestatic liver injury. The results indicated that core targets of YCZFD include tumor necrosis factor, interleukin-1β, non-receptor tyrosine kinase Src, interleukin-6, etc. GO (gene ontology) and KEGG (kyoto encyclopedia of genes and genomes) enrichment analysis indicated that YCZFD may regulate the tumor necrosis factor signaling pathway, nuclear factor-κB signaling pathway, bile secretion, and other related factors to ameliorate the cholestatic liver injury. AutoDockTools software was used to perform molecular docking verification on the core targets and components of YCZFD. To verify the results of network pharmacology, UPLC-MS/MS method was used to determine the effect of YCZFD on levels of bile acid profiles in mouse liver tissues. It was found that treatment with YCZFD significantly reduced the content of free bile acids, taurine bound bile acids, and total bile acids in the liver tissues of cholestatic mice. Then, results from real time PCR and Western blot also found that YCZFD can upregulate the expression of hepatic nuclear receptor farnesoid X receptor, metabolizing enzyme (UDP glucuronidase transferase 1a1), and efflux transporters (bile salt export pump, multidrug resistance-associated protein 2, multidrug resistance-associated protein 3, etc) in cholestasis mice, promote bile acid metabolism and excretion, and improve bile acid homeostasis. Moreover, YCZFD can also inhibit pyroptosis and inflammation by regulating NOD-like receptors 3 pathway, thereby inhibiting cholestatic liver injury.
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Polysaccharide of Balanophora involucrata Hook. f. (BPS), the major component of Balanophora involucrata Hook. f., was confirmed the protective effect on liver injury in our previous study. This research aimed to investigate the protective mechanism of BPS on experimental liver injury by attenuating cell ferroptosis through modulating solute carrier family 7 member 11/glutathione peroxidase 4 (SLC7A11/GPX4) pathway. The animal experiment was approved by the Experimental Animal Ethical Committee of Hubei Minzu University and all rats had received human care in compliance with the institutional animal care guidelines. Rats were given intraperitoneal injection of (D-galactosamine, D-GalN) solution (800 mg·kg-1) one time to establish the acute liver injury model. The results showed aspartate amino transferase (AST), alanine aminotransferase (ALT) and 4-hydroxynonenal (4-HNE) levels in serum were decreased, and the contents of reactive oxygen species (ROS), Fe2+, malondialdehyde (MDA) and lipid peroxide (LPO) in liver tissues also decreased and glutathione (GSH) level increased after BPS administration with 200 mg·kg-1. Besides, BPS reduced iron deposition and increased the expression of SLC7A11 and GPX4 proteins in liver tissue. In conclusion, BPS ameliorated experimental liver injury by alleviating cell ferroptosis through SLC7A11/GPX4 pathway. The present study pointed to the possibility of utilizing BPS for protection against liver injury in clinic.
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ObjectiveTo investigate the protective effect of safranal against sepsis-related liver injury (SRLI) induced by lipopolysaccharide (LPS) in mice and its mechanism. MethodsA total of 32 experimental male C57BL/6 mice were divided into control group, single drug group, model group, and treatment group using the simple random method, with 8 mice in each group. The mice in the single drug group and the treatment group were intraperitoneally injected with safranal (60 mg/kg) for 7 days of pretreatment, and the mice in the model group and the treatment group were intraperitoneally injected with LPS (10 mg/kg) to induce acute liver injury. The activities of serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were measured; HE staining was used to observe liver tissue sections; immunohistochemistry was used to analyze the expression of the downstream protein heme oxygenase-1 (HO-1) in the signal pathway; TUNEL was used to analyze the apoptosis of hepatocytes; Western blot was used to measure the expression of total proteins (nuclear factor erythroid 2-related factor 2 [Nrf-2] and HO-1) in liver tissue. The human liver cell line L02 was pretreated with safranal (100 μmol/L), followed by induction of acute hepatocellular injury with LPS (100 ng/mL), and DCFH-DA fluorescent labeling was used to detect reactive oxygen species (ROS). ResultsAfter safranal pretreatment, the treatment group had significantly lower levels of ALT and AST than the model group (both P<0.001), with a relatively intact pseudolobular structure and a smaller necrotic area in the liver. Compared with the model group, the treatment group had significant increases in the expression levels of Nrf2 and HO-1 in liver tissue after safranal+LPS treatment (both P<0.001), and immunohistochemistry showed that safranal pretreatment increased the number of HO-1-positive cells. In the cell model of LPS-induced acute liver injury, the treatment group had a significant reduction in the production of ROS compared with the model group. ConclusionSafranal can exert a protective effect against SRLI induced by LPS in mice through the Nrf2/HO-1 pathway.