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Introducción. La enfermedad hepática esteatósica asociada a disfunción metabólica (MASLD) es una condición clínica frecuente, relacionada con el sobrepeso, la dislipidemia y la diabetes. Como estos factores de riesgo están a su vez asociados al sedentarismo y la ganancia de peso, se esperaría un impacto como resultado del confinamiento por COVID-19 en la prevalencia de dicha condición. Metodología. Estudio longitudinal retrospectivo en un panel de datos de 132 pacientes de 2017 a 2022, en donde fueron incluidos pacientes con una ecografía hepática y una valoración médica y paraclínica 1,5 años antes y después del periodo de confinamiento (25 de marzo de 2020 a 28 de febrero de 2021). El desenlace primario fue un cambio significativo en la prevalencia de la MASLD, y se utilizó un modelo exploratorio de regresión logística de efectos fijos con panel de datos para hallar los predictores de cambio. Resultados. En un total de 132 pacientes analizados, la prevalencia global de la MASLD antes (31 %; IC95%: 23-39) y después (35,6 %; IC95%: 27,4-43,8) del confinamiento por COVID-19 no cambió significativamente, sin embargo, en las mujeres sí hubo un aumento significativo (RR: 4; IC95%: 1,0004-16). Se encontró una marcada diferencia de prevalencia entre sexos (17 % en mujeres y 46 % en hombres; p=0,001). El confinamiento se asoció a incrementos en la masa corporal (diferencia: +1 kg; IC95%: 0,1-1,9), el colesterol LDL (diferencia: +9,7 mg/dL; IC95%: 4,9-14,4) y al diagnóstico de prediabetes (RR: 2,1; IC95%: 1,4-3,1). La MASLD se asoció positivamente a la preferencia nutricional por la comida rápida (p=0,047). Solo el índice de masa corporal resultó predictor independiente de MASLD (RR: 1,49; IC95%: 1,07-1,93). Conclusión. La prevalencia global de la MASLD no varió después del confinamiento por COVID-19, pero sí se incrementó en mujeres, y algunos de sus factores de riesgo también aumentaron significativamente. Se encontró equivalencia numérica entre la MASLD y la definición previa de la enfermedad. Se requiere un estudio local más grande para desarrollar y validar un mejor modelo predictor del cambio de la MASLD a través del tiempo.
Introduction. Metabolic dysfunction-associated steatotic liver disease (MASLD) is a common clinical condition, related to overweight, dyslipidemia and diabetes. As these risk factors are in turn associated with sedentary lifestyle and weight gain, an impact as a result of the COVID-19 confinement on the prevalence of MASLD would be expected. Methodology. Retrospective longitudinal study in a data panel of 132 patients from 2017 to 2022. Patients with a liver ultrasound and a medical and paraclinical assessment 1.5 years before and after the confinement period (March 25, 2020 to February 28, 2021) were included. The primary outcome was a significant change in the prevalence of MASLD, and an exploratory fixed-effects logistic regression model with panel data was used to find predictors of change. Results. In a total of 132 patients analyzed, the overall prevalence of MASLD before (31%, 95%CI: 23-39) and after (35.6%, 95%CI: 27.4-43.8) confinement by COVID-19 did not change significantly, however, in women there was a significant increase (RR: 4, 95%CI: 1.0004-16). A marked difference in prevalence was found between sexes (17% in women and 46% in men; p=0.001). Confinement was associated with increases in body mass (difference: +1 kg, 95%CI: 0.1-1.9), LDL cholesterol (difference: +9.7 mg/dL, 95%CI: 4.9-14.4) and the diagnosis of prediabetes (RR: 2.1, 95%CI: 1.4-3.1). MASLD was positively associated with nutritional preference for fast food (p=0.047). Only body mass index was an independent predictor of MASLD (RR: 1.49, 95%CI: 1.07-1.93). Conclusion. The overall prevalence of MASLD did not change after the COVID-19 lockdown, but it did increase in women, and some of its risk factors also increased significantly. Numerical equivalence was found between MASLD and the previous definition of the disease. A larger local study is required to develop and validate a better predictor model of MASLD change over time.
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Nonalcoholic fatty liver disease (NAFLD) is one of the most prevalent chronic liver diseases in the world, affecting about one quarter of the global population, and it is estimated that NAFLD will become the main indication for liver transplantation by 2030. NAFLD can lead to significant abnormalities in the levels of a variety of amino acids including branched-chain amino acids, thereby promoting the development and progression of NAFLD. These results suggest that in addition to glucose and lipid metabolism, amino acid metabolism also plays an important role in the progression of NAFLD. In order to systematically understand the role and mechanism of amino acid metabolism in NAFLD, this article reviews the research advances in amino acid metabolism in NAFLD. This article aims to explore the role and mechanism of amino acid metabolism in the progression of NAFLD, so as to provide ideas and a theoretical basis for clinical prevention and treatment.
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Nonalcoholic fatty liver disease (NAFLD) is a multisystem disease associated with obesity, insulin resistance, and dyslipidemia and has a complex pathogenesis. Studies have shown that gut microbiota dysbiosis is closely associated with the onset of NAFLD, and traditional Chinese medicine treatment can improve the laboratory markers and clinical symptoms of NAFLD patients by regulating intestinal microbiota and its metabolites. This article elaborates on the association between NAFLD and gut microbiota, the involvement of gut microbiota dysbiosis in the pathogenesis of NAFLD, and the possible mechanism of traditional Chinese medicine treatment in improving NAFLD from the perspective of gut microbiota, in order to provide new ideas for the treatment of NAFLD.
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ObjectiveTo investigate the mechanism of action of Xiayuxue decoction in inhibiting nonalcoholic fatty liver disease (NAFLD) induced by high-fat diet in mice by regulating nucleotide binding oligomerization domain like receptor containing pyrin domain protein 6 (NLRP6). MethodsA total of 15 male C57BL/6 mice were randomly divided into low-fat diet (LFD) group, high-fat diet (HFD) group, and Xiayuxue decoction-HFD group (XYXD group), with 5 mice in each group. Liver function parameters (alanine aminotransferase [ALT] and aspartate aminotransferase [AST]) and blood lipid metabolic indicators (triglycerides [TG] and total cholesterol [TC]) were measured; HE staining and oil red O staining were performed for liver tissue to observe histomorpholoty and lipid droplet deposition; quantitative real-time PCR was used to measure the expression levels of inflammatory factors (tumor necrosis factor-α [TNF-α], interleukin-1β [IL-1β], interleukin-18 [IL-18], and NLRP6) in liver tissue; Western blot was used to measure the protein expression levels of NLRP6, nuclear factor-kappa B (NF-κB), and NF-κB p65; immunohistochemistry was used to measure the expression of NLRP6 and CD68. Mouse Raw264.7 cells were treated with palmitic acid (PA), lipopolysaccharide, and serum containing Xiayuxue decoction to observe inflammation. A one-way analysis of variance was used for comparison of continuous data between multiple groups, and the least significant difference t-test was used for further comparison between two groups. ResultsCompared with the LFD group, the HFD group had significant increases in the serum levels of ALT, AST, TC, and TG (all P<0.05). Liver histopathological examination showed that the HFD group had marked hepatic steatosis and a signficant increase in NAS score (P<0.05), and quantitative real-time PCR showed significant increases in the inflammatory factors such as IL1β and IL-18 and a significant reduction in the expression of NLRP6 (all P<0.05). Immunohistochemistry showed that the expression of NLRP6 showed a similar trend as that of the macrophage marker CD68. Western blot showed that after the downregulation of NLRP6 expression, there was a significant increase in phosphorylated NF-κB p65 (P<0.05). Compared with the HFD group, Xiayuxue decoction effectively improved liver inflammation, upregulated the expression of NLRP6, and downregulated phosphorylated NF-κB p65 in HFD mice (all P<0.05). After Raw264.7 cells were treated with PA, NLRP6 was downregulated to promote the progression of inflammation (P<0.05), and treatment with Xiayuxue decoction could upregulate NLRP6 and inhibit inflammation NF-κB (P<0.05). ConclusionXiayuxue decoction can effectively improve hepatic steatosis and liver inflammation in a mouse model of NAFLD, possibly by regulating NLRP6/NF-κB to alleviate macrophage activation.
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ObjectiveTo investigate the protective effect of Genistein against nonalcoholic fatty liver disease (NAFLD) in ovariectomized (OVX) mice and its mechanism. MethodsA total of 40 female C57BL/6 mice, aged 6 weeks, were used to establish an OVX mouse model, and then they were randomly divided into blank group, 4-week model group, 6-week model group, 8-week model group, and 10-week model group, with 8 mice in each group. Under the same environmental conditions, the mice were given high-fat diet for modeling, and pathological examination showed that NAFLD was successfully induced by 10-week high-fat diet. Another 40 female C57BL/6 mice, aged 6 weeks, were randomly divided into blank group, sham operation group (Sham group), OVX group, OVX+L-Genistein (4 mg/kg body weight) group, and OVX+H-Genistein (8 mg/kg body weight) group. The mice in the Sham group were given the same procedure of OVX, without the ligation of the ovarian artery and the resection of the ovary. The mice in the blank group were given normal diet, and those in the other groups were given high-fat diet. Genistein was dissolved in DMSO, and the mice in the Sham group and the OVX group were treated with solvent solution alone by gavage, once a day for 10 consecutive weeks. Body weight and visceral index were recorded, and the mice were sacrificed to collect serum and liver tissue. Kits were used to measure the activity of alanine aminotransferase (ALT) and aspartate aminotransferase (AST) and the serum levels of triglyceride (TG) and total cholesterol (TC), and HE staining and oil red O staining were used to observe liver histopathology; Western blot was used to measure the protein expression levels of sterol regulatory element-binding protein 1c (SREBP-1c) and peroxisome proliferator-activated receptor alpha (PPARα) associated with lipid metabolism in liver tissue. A one-way analysis of variance was used for comparison of continuous data between multiple groups, and the Dunnett-t test was used for further comparison between two groups. ResultsAfter 10 weeks of high-fat diet, the OVX+L-Genistein group and the OVX+H-Genistein group had significantly lower body weight, liver index, and liver tissue weight (all P<0.05). In addition, Genistein significantly downregulated the serum levels of TC and TG (P<0.05) and reduced the activities of serum AST and ALT (P<0.05). HE and oil red O staining showed that compared with the OVX group, the OVX+L-Genistein group and the OVX+H-Genistein group had a significant reduction in the accumulation of lipid droplets. Western blot showed that after Genistein intervention, there was a significant reduction in the protein expression level of SREBP-1c and a significant increase in the protein expression level of PPARα (P<0.05). ConclusionGenistein exerts a protective effect against NAFLD in OVX mice possibly by regulating the expression of SREBP-1c and PPARα, thereby promoting fatty acid oxidation and inhibiting liver lipid synthesis.
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ObjectiveTo investigate the association of the polymorphisms of the acetyl-CoA acetyltransferase 1 (ACAT1) gene and the melatonin receptor 1B (MTNR1B) gene with the susceptibility to nonalcoholic fatty liver disease (NAFLD). MethodsA total of 164 healthy controls and 228 NAFLD patients were enrolled in this study. PCR and sequencing methods were used to determine the genotypes of the polymorphisms of the ACAT1 gene at the rs1044925 and rs1157651 loci and the MTNR1B gene at the rs10830963 locus, and fasting venous blood samples were collected for biochemical analysis. The t-test was used for comparison of normally distributed continuous data between groups, and the non-parametric Mann-Whitney U test was used for comparison of non-normally distributed continuous data between groups; the chi-square test was used for comparison of categorical data between groups. ResultsThere were no significant differences between the NAFLD group and the healthy control group in the genotype distribution of the ACAT1 gene at the rs1044925 and rs1157651 loci and the MTNR1B gene at the rs10830963 locus (all P>0.05). The carriers of AA genotype at the rs1044925 locus of the ACAT1 gene had a significantly higher level of low-density lipoprotein than the carriers of C allele (Z=-2.08, P=0.04), and the carriers of G allele at the rs10830963 locus of the MTNR1B gene had a significantly higher level of fasting blood glucose than the carriers of CC genotype (Z=-3.01, P<0.01). ConclusionThe polymorphisms of the ACAT1 gene at the rs1044925 and rs1157651 loci and the MTNR1B gene at the rs10830963 locus were not associated with the susceptibility to NAFLD. The rs1044925 locus of the ACAT1 gene and the rs10830963 locus of the MTNR1B gene are associated with the levels of low-density lipoprotein and fasting blood glucose, respectively.
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ObjectiveTo investigate the value of serum Fetuin-A and Fetuin-B combined with Homeostasis Model Assessment of Insulin Resistance (HOMA-IR) in predicting nonalcoholic fatty liver disease (NAFLD). MethodsA total of 120 patients with NAFLD who attended Department of Gastroenterology, The First Affiliated Hospital of Dali University, from June 2020 to June 2021, and 120 healthy individuals who underwent physical examination at Physical Examination Center during the same period of time were enrolled as subjects, and clinical data were collected from all subjects. The serum levels of Fetuin-A and Fetuin-B were measured. The independent-samples t test or the Mann-Whitney U test was used for comparison of continuous data between two groups, and the chi-square test was used for comparison of categorical data between two groups; the multivariate Logistic regression analysis was used to assess the risk factors for NAFLD. The receiver operating characteristic (ROC) curve was plotted to evaluate the predictive efficacy of Fetuin-A and Fetuin-B combined with HOMA-IR in NAFLD patients. ResultsCompared with the healthy control group, the NAFLD group had significantly higher levels of body mass index, systolic blood pressure, diastolic blood pressure, alanine aminotransferase, aspartate aminotransferase, fasting blood glucose, fasting insulin, triglycerides, HOMA-IR, Fetuin-A, and Fetuin-B (all P<0.05). The multivariate Logistic regression analysis showed that Fetuin-A (odds ratio [OR]=1.010, 95% confidence interval [CI]: 1.001 — 1.020, P<0.05), Fetuin-B (OR=1.113, 95%CI: 1.021 — 1.214, P<0.05), and HOMA-IR (OR=24.053, 95%CI: 2.624 — 220.470, P<0.05) were independent risk factors for NAFLD. The ROC curve analysis showed that Fetuin-A, Fetuin-B or HOMA-IR alone had an area under the ROC curve (AUC) of 0.637 (95%CI: 0.551 — 0.722), 0.853 (95%CI: 0.796 — 0.912), and 0.837 (95%CI: 0.763 — 0.912), respectively, and Fetuin-A combined with Fetuin-B, Fetuin-A combined with HOMA-IR, and Fetuin-B combined with HOMA-IR had an AUC of 0.853 (95%CI: 0.795 — 0.911), 0.843 (95%CI: 0.770 — 0.916), 0.922 (95%CI: 0.877 — 0.967), respectively, while the combination of these three indicators had an AUC of 0.922 (95%CI: 0.877 — 0.966). ConclusionFetuin-A and Fetuin-B have a certain value in predicting NAFLD, and Fetuin-B combined with HOMA-IR tends to have a higher predictive value.
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ObjectiveTo investigate the association between urinary thallium (TL) and nonalcoholic fatty liver disease (NAFLD). MethodsRelated data were collected from the registered participants aged ≥18 years in National Health and Nutrition Examination Survey from 2017 to 2020, with th exclusion of the individuals with a lack of liver transient elastography data and urinary TL indicators and those with hepatitis B, hepatitis C or significant alcohol consumption. A total of individuals were divided into NAFLD group and non-NAFLD group. Urinary TL level was quantitatively measured using high-performance liquid chromatography-electrospray ionization-tandem mass spectrometry and online solid-phase extraction combined with isotope dilution. The two groups were compared in terms of age, sex, race, marital status, education, family income poverty impact ratio (FMPIR), body mass index (BMI), smoking, alcohol consumption, diabetes mellitus (DM), hypertension (HTN), hyperlipidemia (HL), and urinary TL level. The independent-samples t test or the Wilcoxon rank-sum test was used for comparison of continuous data between two groups, and the chi-square test was used for comparison of categorical data between two groups. Descriptive analysis, multivariable Logistic regression, restricted cubic spline regression analysis, subgroup analysis, and interaction analysis were conducted to investigate the risk association between urinary TL and NAFLD. ResultsA total of 2 511 individuals were included, with 1 612 (64.20%) in the NAFLD group and 899 (35.80%) in the non-NAFLD group, and the NAFLD group had a significantly higher urinary TL level than the non-NAFLD group [0.18 (0.11 — 0.26)μg/L vs 0.16 (0.09 — 0.25)μg/L, Z=-2.76, P=0.01]. After adjustment for the covariates of age, sex, race, education, marital status, FMPIR, BMI, smoking, alcohol consumption, DM, HTN, and HL, the urinary TL Q4 group had a significant increase in the risk of NAFLD (odds ratio [OR]=1.90, 95% confidence interval [CI]: 1.48 — 2.44, P<0.01). There was a positive dose-response relationship (P<0.01) and a non-linear relationship (P<0.01) between urinary TL and the risk of NAFLD. A significant interaction was observed between urinary TL and smoking/BMI (P<0.05). For individuals taking ≥100 cigarettes in their lifetime, the risk of NAFLD was increased by 50% for every quartile increase in urinary TL (OR=1.50, 95%CI: 1.24 — 1.80), and for individuals taking<100 cigarettes in their lifetime, the risk of NAFLD was increased by 20% for every quartile increase in urinary TL (OR=1.20, 95%CI: 1.03 — 1.40); for individuals with a BMI of ≥30 kg/m2, the risk of NAFLD was increased by 30% for every quartile increase in urinary TL (OR=1.30, 95%CI: 1.05 — 1.70), with a statistical significance (P<0.05). ConclusionUrinary TL level is significantly associated with the risk of NAFLD.
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Objective To investigate the relationship between nuclear factor(NF)-κB signaling pathway and gender differences in alcoholic liver fibrosis. Methods C57BL/6 N mice at 7-8 weeks of age were randomly divided into: male normal group, male model group, female normal group and female model group of 20 mice each. The normal group was fed with control liquid diet for 8 weeks, and the model group was fed with alcoholic liquid diet for 8 weeks combined with 31.5% ethanol gavage (5g/kg twice a week) to establish an alcoholic liver fibrosis model. The mice were executed at the end of 8 weekends, and the alanine aminotransferase (ALT), aspartate aminotransferase (AST) activity, estradiol (E
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AIM: To study the effect and mechanism of Di'ao Xinxuekang (DXXK) on insulin resistance in nonalcoholic steatohepatitis (NASH) mice. METHODS: C57BL/6J mice were randomly divided into normal group and model group. After 16 weeks of high-fat diet, the model group was randomly divided into model group and Pioglitazone group (6.0 mg · kg
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ObjectiveTo discuss the effects of Cistanches Herba phenylethanoid glycosides (CHPhGs) on the intestinal mucosal barrier and gut microbiota in alcoholic liver disease (ALD) mice were discussed. MethodThe 36 C57BL/6N female mice were randomly divided normal group, normal group of CHPhGs, model group, and low, medium, and high-dose groups (175, 350, 700 mg·kg-1) of CHPhGs, with six mice in each group. The ALD mouse model was built using Lieber-Decarli alcohol liquid feed. The normal group and low, medium, and high-dose groups of CHPhGs were given CHPhGs by gavage daily. Serum aspartate aminotransferase aminotransferase (ALT), alanine aminotransferase (AST), triglycerides (TG), and total cholesterol (TC) levels were detected by an automatic biochemical analyzer. Serum tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β), lipopolysaccharide (LPS), lipopolysaccharide-binding protein (LBP), D-lactic acid (D-LA), diamine oxidase (DAO), and LBP of liver were detected by enzyme-linked immunosorbent assay (ELISA). The levels of TG and TC in the liver were detected by colorimetry. Liver tissue was treated by oil red O and hematoxylin-eosin (HE) staining. The microstructure of jejunum epithelial cells was observed by electron microscope. Jejunum and colon were treated by HE staining and alcian blue-periodate-scheff (AB-PAS) staining staining, and mucin 2 (Muc2) was treated by immunohistochemistry. The intestinal contents of the normal group, normal group of CHPhGs, model group, and high-dose group of CHPhGs were collected and sequenced. ResultThe ALD model was established successfully. Compared with the normal group, the levels of serum ALT, AST, and TG, as well as the levels of liver TG and TC in the model group were significantly increased (P<0.05). Histopathology showed that compared with the normal group, the liver cells in the model group showed obvious steatosis. Compared with the model group, the levels of serum TG and liver TG and TC in the low, medium, and high-dose groups of CHPhGs decreased significantly (P<0.05). The serum ALT, AST, TNF-α, IL-1β, LPS, and LBP in the high-dose group of CHPhGs were also significantly decreased (P<0.05). The number of liver cells with steatosis in the high-dose group of CHPhGs was significantly reduced, and the microvilli structure of jejunum epithelial cells was basically intact. The expression of Muc2 was reduced in the colon, and the gut microbiota of the high-dose group of CHPhGs changed significantly (P<0.05). Compared with the normal group, the Allobaculum was significantly up-regulated in the model group (P<0.05). Compared with the model group, the abundance of Akkermansia in the high-dose group of CHPhGs was significantly increased (P<0.01). The abundance of Akkermansia was negatively correlated with that of Allobaculum (r=-0.701, P<0.01). ConclusionCHPhGs can reduce the intestinal barrier injury caused by ALD, which may play a protective role by regulating the abundance and structure of Akkermansia and Allobaculum and affecting the homeostasis of intestinal mucus.
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Nonalcoholic fatty liver disease (NAFLD) has become the most common chronic liver disease in the world, and it is also one of the main causes of liver cirrhosis and hepatocellular carcinoma, so it is particularly important to curb the development and progression of NAFLD in a timely manner. However, due to its complex pathogeneses, there are currently no effective methods for radical treatment. As a new generation of probiotics, Akkermansia muciniphila (Akk bacteria) can improve metabolic disorders of the body, and more and more studies have shown that Akk bacteria have a potential therapeutic effect on metabolic diseases, especially NAFLD. Therefore, this article briefly reviews the mechanism of action of Akk bacteria in NAFLD, in order to provide new ideas for improving the treatment of NAFLD and creating new therapies.
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Nonalcoholic fatty liver disease (NAFLD) is an abnormal lipid metabolic disorder of the liver characterized by accumulation of a large amount of lipids in the liver, and it is currently the most common liver disease around the world. Mendelian randomization (MR) incorporates genomic data into traditional epidemiological study designs to infer the causal relationship between exposure factors and disease risk. In recent years, MR has been widely used in studies on inference of the etiology of NAFLD. This article systematically summarizes the advances in the application of MR in NAFLD research, so as to provide new ideas for understanding the nature of the disease and scientific interventions.
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Chronic hepatitis B virus (HBV) infection is a worldwide public health issue and a leading cause of liver fibrosis, liver cirrhosis, liver failure, and primary liver cancer in China. The incidence rate of nonalcoholic fatty liver disease (NAFLD) is gradually increasing with the improvement in the living standards of people and the changes in dietary structure. Population-based studies have found that HBV infection can influence the development of NAFLD, but the mechanism remains unknown. Hepatic steatosis can also influence the expression of HBV serum pathogenic indicators, and its combination with NAFLD and other metabolic dysfunction diseases can increase the risk of liver fibrosis, liver cirrhosis, and liver cancer. Chronic HBV infection is closely associated with metabolic dysfunction, and more studies are needed in the future to better understand related mechanisms, so as to provide a theoretical foundation for clinical diagnosis and treatment.
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Hepatitis B virus (HBV) is considered a “metabolic virus” that can influence a variety of metabolic processes. There is still a lack of definite conclusion on the association between chronic HBV infection and the various types of metabolic dysfunction, and little is known about the mechanism of the association of chronic HBV infection with the diseases characterized by metabolic disorder, such as metabolic syndrome, diabetes, and metabolic associated fatty liver disease. Currently it is believed that hepatitis B x gene (HBx), derived from HBV genome, might play an important role in mediating systemic metabolic alterations after HBV infection, and HBx influences the metabolism of carbohydrates and lipids and causes metabolic dysfunction by retgulating the expression profiles of the key proteins such as PPARγ, C/EBPα, SREBP, and FATP2. Nonalcoholic fatty liver disease (NAFLD) is the most severe manifestation of metabolic dysfunction in the liver, and since both NAFLD and HBV infection can cause liver injury, the research on the interaction between them has attracted more and more attention, with controversies requiring further exploration. Therefore, this article elaborates on the research advances in chronic HBV infection and metabolic dysfunction, so as to provide ideas for subsequent studies.
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ObjectiveTo explore the effect and mechanism of Qizhu prescription on liver lipid anabolism and oxidative stress in mice with non-alcoholic steatohepatitis (NASH) based on adenylate activated protein kinase (AMPK) signaling pathway. MethodA total of 60 male C57BL/6J mice were randomly divided into a normal group (n = 10) and a modeling group (n = 50). The modeling group was fed by high-fat and high-cholesterol diet for 16 weeks to establish the NASH mice model and was randomly divided into model group, low-, medium, and high-dose groups of Qizhu prescription, and Yishanfu group, with 10 mice in each group. Qizhu prescription was administered intragastrically once a day at a dose of 4.75, 9.50, and 19.00 g·kg-1 in each group and 228 mg·kg-1 in Yishanfu group. The normal group and model group were given equal volumes of pure water for eight weeks. Serum alanine aminotransferase (ALT), aspartate aminotransferase (AST), total cholesterol (TC), triglyceride (TG), and glucose (GLU) levels were detected. The pathological changes of liver tissue were observed by hematoxylin-eosin (HE) and oil red O staining. Serum levels of interleukin-6 (IL-6), interleukin-1β (IL-1β), tumor necrosis factor-α (TNF-α), free fatty acids (FFA), reduced glutathione (GSH), malondialdehyde (MDA), catalase (CAT), and superoxide dismutase (SOD) were detected by enzyme-linked immunosorbent assay (ELISA). The mRNA expression levels of acetyl-CoA carboxylase (ACC), carnitine palmitoyl transferase 1A(CPT1A), and mitochondrial uncoupling protein 2 (UCP2) were detected by real-time fluorescence quantitative polymerase chain reaction (Real-time PCR). Protein expression levels of AMPK, p-AMPK, ACC, CPT1A, and UCP2 in liver tissue were detected by Western blot. ResultCompared with the normal group, the liver steatosis of the model group was obvious, with multiple inflammatory clusters and large amounts of intracellular lipid deposition. The activity of serum AST, ALT, as well as levels of IL-6, IL-1β, TNF-α, FFA, and MDA were significantly increased, the activity of CAT and SOD was significantly decreased, and the mRNA and protein expressions of ACC were significantly increased. The mRNA and protein expressions of CPT1 and UCP2 were significantly decreased, and the protein expression of p-AMPK was significantly decreased (P<0.01). Compared with the model group, the degree of liver steatosis in the Qizhu prescription and Yishanfu groups was reduced, the activity of AST and ALT, as well as the levels of IL-6, IL-1β, TNF-α, FFA, and MDA was significantly decreased, and the activity of CAT and SOD was significantly increased (P<0.01). The mRNA and protein expressions of ACC in liver tissue of mice in medium- and high-dose groups of Qizhu prescription were significantly decreased, while the mRNA and protein expressions of CPT1A and UCP2, as well as p-AMPK protein were significantly increased (P<0.01). ConclusionQizhu prescription can improve liver lipid metabolism, reduce oxidative stress, and promote liver cell repair in NASH mice by activating the AMPK signaling pathway.
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ObjectiveTo investigate the therapeutic effect of Baihe Wuyaotang (BWT) on non-alcoholic fatty liver disease (NAFLD) and elucidate its underlying mechanism. MethodC57BL/6J mice were randomly assigned to six groups: normal control, model, positive drug (pioglitazone hydrochloride 1.95×10-3 g·kg-1), and low-, medium-, and high-dose BWT (1.3,2.5 and 5.1 g·kg-1). Following a 12-week high-fat diet (HFD) inducement, the mice underwent six weeks of therapeutic intervention with twice-daily drug administration. Body weight was monitored weekly throughout the treatment period. At the fifth week, glucose tolerance (GTT) and insulin tolerance (ITT) tests were conducted. Subsequently, the mice were euthanized for the collection of liver tissue and serum, and the subcutaneous adipose tissue (iWAT) and epididymal adipose tissue (eWAT) were weighed. Serum levels of total triglycerides (TG) and liver function indicators,such as alanine aminotransferase (ALT) and aspartate aminotransferase (AST), were determined. Histological examinations, including oil red O staining, hematoxylin-eosin (HE) staining, Masson staining, and transmission electron microscopy, were performed to evaluate hepatic lipid deposition, pathological morphology, and ultrastructural changes, respectively. Meanwhile, Western blot and real-time quantitative polymerase chain reaction (Real-time PCR) were employed to analyze alterations, at both gene and protein levels, the insulin signaling pathway molecules, including insulin receptor substrate 1/2/protein kinase B/forkhead box gene O1 (IRS1/2/Akt/FoxO1), glycogen synthesis enzymes phosphoenolpyruvate carboxy kinase (Pepck) and glucose-6-phosphatase (G6Pase), lipid metabolism-related genes stearoyl-coA desaturase-1 (SCD-1) and carnitine palmitoyltransferase-1 (CPT-1), fibrosis-associated molecules α-smooth muscle actin (α-SMA), type Ⅰ collagen (CollagenⅠ), and the fibrosis canonical signaling pathway transforming growth factor-β1/drosophila mothers against decapentaplegic protein2/3(TGF-β1/p-Smad/Smad2/3), inflammatory factors such as interleukin(IL)-6, IL-8, IL-11, and IL-1β, autophagy markers LC3B Ⅱ/Ⅰ and p62/SQSTM1, and the expression of mammalian target of rapamycin (mTOR). ResultCompared with the model group, BWT reduced the body weight and liver weight of NAFLD mice(P<0.05, P<0.01), inhibited liver lipid accumulation, and reduced the weight of white fat: it reduced the weight of eWAT and iWAT(P<0.05, P<0.01) as well as the serum TG content(P<0.05, P<0.01). BWT improved the liver function as reflected by the reduced ALT and AST content(P<0.05, P<0.01). It improved liver insulin resistance by upregulating IRS2, p-Akt/Akt, p-FoxO1/FoxO1 expressions(P<0.05). Besides, it improved glucose and lipid metabolism disorders: it reduced fasting blood glucose and postprandial blood glucose(P<0.05, P<0.01), improved GTT and ITT(P<0.05, P<0.01), reduced the expression of Pepck, G6Pase, and SCD-1(P<0.01), and increased the expression of CPT-1(P<0.01). The expressions of α-SMA, Collagen1, and TGF-β1 proteins were down-regulated(P<0.05, P<0.01), while the expression of p-Smad/Smad2/3 was downregulated(P<0.05), suggesting BWT reduced liver fibrosis. BWT inhibited inflammation-related factors as it reduced the gene expression of IL-6, IL-8, IL-11 and IL-1β(P<0.01) and it enhanced autophagy by upregulating LC3B Ⅱ/Ⅰ expression(P<0.05)while downregulating the expression of p62/SQSTM1 and mTOR(P<0.05). ConclusionBWT ameliorates NAFLD by multifaceted improvements, including improving IR and glucose and lipid metabolism, anti-inflammation, anti-fibrosis, and enhancing autophagy. In particular, BWT may enhance liver autophagy by inhibiting the mTOR-mediated signaling pathway.
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ObjectiveTo investigate the intervention mechanism of Dendrobium officinale leaf fermentation fluid in mice with alcoholic hepatitis. MethodsA total of 70 healthy male C57BL/6J mice, aged 6-8 weeks, were randomly divided into normal group, model group, liquid feed control group, silybin group, and low-, middle-, and high-dose Dendrobium officinale leaf fermentation fluid groups, with 10 mice in each group. The mice in the normal group were given normal diet, and those in the other groups were given Lieber-DeCarli classic liquid diet for 8 weeks to induce alcoholic hepatitis. During modeling, the mice in the low-, middle-, and high-dose Dendrobium officinale leaf fermentation fluid groups were given Dendrobium liquid manufactured by Warmen Pharmaceutical, and the mice in all the other groups were given pure water; the mice in the normal group, the model group, and the liquid feed control group were given normal saline by gavage, those in the silybin group were given silybin 0.25 mL/10 g by gavage, and those in the low-, middle-, and high-dose Dendrobium officinale leaf fermentation fluid groups were given Dendrobium officinale leaf fermentation fluid at a dose of 0.125 mL/10 g, 0.250 mL/10 g, and 0.375 mL/10 g, respectively, by gavage, once a day. At week 8, chloral hydrate was injected intraperitoneally for anesthesia, and blood samples were collected from the eyeball. After serum was separated, the biochemical method was used to measure the levels of aspartate aminotransferase (AST) and alanine aminotransferase (ALT); HE staining and oil red staining were used to observe liver histopathology and lipid accumulation in mice; multiplex Luminex assay was used to measure the serum levels of interleukin-6 (IL-6), interleukin-1β (IL-1β), tumor necrosis factor-α (TNF-α), and CCL2; quantitative real-time PCR, Western blot, and immunofluorescence assay were used to measure the protein expression levels of NLRP3, caspase-1, caspase-11, gasdermin D (GSDMD), N-terminal gasdermin D (GSDMD-N) in liver tissue. A one-way analysis of variance was used for comparison of continuous data between multiple groups, and the least significant difference t-test was used for further comparison between two groups. ResultsCompared with the normal group, the model group had significant increases in the serum levels of AST, ALT, IL-6, IL-1β, TNF-α, and CCL2 (all P<0.05), and compared with the model group, the high-dose Dendrobium officinale leaf fermentation fluid group had significant reductions in the serum levels of AST, ALT, IL-6, IL-1β, TNF-α, and CCL2 (all P<0.05). HE staining showed that the model group had disordered structure of hepatic lobules, with a large number of steatosis vacuoles and massive cell necrosis, and compared with the model group, the high-dose Dendrobium officinale leaf fermentation fluid group had alleviation of liver histopathological injury, intact structure of most hepatic lobules, and a small amount of inflammatory cell infiltration. Oil red staining showed that the model group had accumulation of large and small lipid droplets in the liver and a significant increase in liver fat content, and compared with the model group, the high-dose Dendrobium officinale leaf fermentation fluid group had significant alleviation of hepatic steatosis, with the presence of sporadic small lipid droplets. Immunofluorescence assay of liver tissue showed that compared with the normal group, the model group had a significant increase in the ratio of GSDMD-positive staining area in hepatocyte cytoplasm (P<0.001), and compared with the model group, the high-dose Dendrobium officinale leaf fermentation fluid group had a significant reduction in such ratio in hepatocyte cytoplasm (P<0.001). Quantitative real-time PCR showed that compared with the normal group, the model group had significant increases in the protein expression levels of NLRP3, caspase-1, caspase-11, GSDMD, GSDMD-N, interleukin-18 (IL-18), and IL-1β in liver tissue (all P<0.05), and compared with the model group, the high-dose Dendrobium officinale leaf fermentation fluid group had significant reductions in the protein expression levels of NLRP3, caspase-1, caspase-11, GSDMD, GSDMD-N, IL-18, and IL-1 (all P<0.05). Compared with the model group, the high-dose Dendrobium officinale leaf fermentation fluid group had significant reductions in the protein expression levels of caspase-1 and caspase-11 (both P<0.05), with a relative expression level of caspase-1 of 1.757 (reduced by 26.6% compared with the model group) and a relative expression level of caspase-11 of 0.455 (reduced by 70.3% compared with the model group), suggesting that caspase-11 showed a greater reduction than caspase-1. ConclusionDendrobium officinale leaf fermentation fluid can alleviate alcoholic hepatitis in mice, possibly by inhibiting the non-classical cell pyroptosis pathway mediated by caspase-11.
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objectiveTo investigate the differences in clinical indices and lipid metabolism between the patients with nonalcoholic fatty liver disease (NAFLD) and healthy individuals in the overweight population. MethodsIn this study, body mass index (BMI)>23 kg/m2 was defined as overweight. A total of 62 overweight patients with NAFLD who were admitted to Putuo Hospital Affiliated to Shanghai University of Traditional Chinese Medicine from August 2020 to April 2021 were enrolled as overweight NAFLD group, and 50 overweight individuals who underwent physical examination during the same period of time were enrolled as control group. Clinical information and blood biochemical parameters were recorded for all subjects. Ultra-performance liquid chromatography-tandem mass spectrometry was used to analyze serum lipidomic profile, and principal component analysis and orthogonal partial least squares-discriminant analysis were used to perform the multivariate statistical analysis of lipidomic data. The chi-square test was used for comparison of categorical data between two groups, and the independent-samples t test or the Wilcoxon rank-sum test was used for comparison of continuous data between two groups. ResultsThe overweight NAFLD group had a significantly higher BMI than the overweight control group (Z=-2.365, P=0.018). As for serological markers, compared with the overweight control group, the overweight NAFLD group had significantly higher levels of red blood cells, hemoglobin, hematocrit, uric acid, total protein, globulin, alkaline phosphatase, gamma-glutamyl transpeptidase, alanine aminotransferase, aspartate aminotransferase, cholinesterase, low-density lipoprotein, total cholesterol, triglyceride, apolipoprotein B, and blood glucose (all P<0.05). The lipidomic analysis showed that there was a significant difference in lipid metabolism between the two groups, and a total of 493 differentially expressed lipids were identified (VIP value>1, P<0.05), among which 143 lipids were significantly upregulated and 350 lipids were significantly downregulated in the overweight NAFLD group. The mean total fatty acid content in the overweight NAFLD group was 3.6 times that in the overweight control group. Compared with the overweight control group, the overweight NAFLD group had a significant reduction in the content of triglyceride with>3 unsaturated bonds (P<0.001) and a significant increase in the content of triglyceride with ≤3 unsaturated bonds (P<0.001). ConclusionCompared with healthy overweight individuals, overweight NAFLD patients tend to have significant abnormalities in some biochemical parameters and lipid metabolites, with significant increases in the content of fatty acid in blood and the types of saturated fat chains in triglycerides.
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Objective: Non-alcoholic fatty liver disease is common worldwide, and lifestyle modifications are key to its treatment. This study aimed to identify the barriers to lifestyle modifications in patients with non-alcoholic fatty liver disease and to organize the results using the Capability Opportunity Motivation-Behavior (COM-B) model.Materials and Methods: The framework of Arksey and O’ Malley was used in this scoping review. We searched PubMed, Scopus, and the Cochrane Library without language restrictions for reports published up to September 11, 2022, including peer-reviewed literature reporting barriers to lifestyle modifications in patients with non-alcoholic fatty liver disease. Patient-reported barriers were analyzed inductively and organized into the components (capability, opportunity, and motivation) of the COM-B model.Results: The literature search yielded 583 articles, of which seven qualitative studies, four quantitative studies, and one mixed-methods study met the inclusion criteria. Lack of time, lack of information on the diagnosis and management of non-alcoholic fatty liver disease, negative perceptions of the prescribed exercise and diet, physical symptoms interfering with the behavior, presence of comorbidities, and lack of family cooperation were frequently reported as barriers.Conclusion: The results of this study may contribute to the development of appropriate care and education strategies to promote behavioral changes in patients with non-alcoholic fatty liver disease.