Browsing by Subject "Fatty liver"
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Item Association between serum cotinine level and prevalence of non-alcoholic fatty liver disease: a cross-sectional study from the Third National Health and Nutrition Examination Survey(BMJ Journals, 2017-01) Shen, Huafeng; Peng, Jennifer L.; Tayarachakul, Sucharat; Liangpunsakul, Suthat; Medicine, School of MedicineThe data on the effect of smoking on non-alcoholic fatty liver disease (NAFLD) has been controversial. The aim of this study was to investigate if an association exists between serum cotinine level (a tobacco biomarker) and NAFLD prevalence in the general US population. We conducted a cross-sectional analysis of data from the Third National Health and Nutrition Examination Survey (NHANES III). We included 11,003 adults aged 20-74 years who underwent ultrasonography. Of those, 4036 were identified as having NAFLD and 6967 were recognized as controls. The percentage of current smokers was significantly lower in subjects with NAFLD compared with those in controls (21.5% vs 26.0%, p<0.01). After adjustment for potential confounders, there was no association between current or former smokers with NAFLD. Additionally, no associations were observed between the levels of serum cotinine and NAFLD. No association between serum cotinine levels at each quartile level and NAFLD was observed regardless of smoking status. In this large US population-based study, we did not find an association between NAFLD and self-reported smoking status or measured serum cotinine level.Item Associations of chronic diarrhoea with non-alcoholic fatty liver disease and obesity-related disorders among US adults(BMJ, 2019-08-12) Shin, Andrea; Xu, Huiping; Imperiale, Thomas F.; Medicine, School of MedicineMechanisms explaining observed associations between diarrhoea and obesity or increased body mass index (BMI) are unclear. Objective: To assess associations of bowel patterns with BMI, metabolic syndrome (MS), non-alcoholic fatty liver disease (NAFLD) and other obesity-related disorders. Design: We performed a cross-sectional analysis of data from adults who completed bowel health questions for the 2005 to 2010 cycles of the National Health and Nutrition Examination Surveys. Relationships were examined using multinomial logistic regression. Confounding effects of demographics, smoking, alcohol and BMI were examined by sequential modelling. Results: Among 13 413 adults, weighted prevalence rates of constipation and diarrhoea were 8.9% and 6.6%, respectively. Mean BMI was associated with bowel patterns (p<0.001), and was higher with diarrhoea (30.3 kg/m2) versus normal bowel patterns (28.6 kg/m2) and with diarrhoea versus constipation (27.8 kg/m2). NAFLD was more prevalent (ORs, 95% CI) in diarrhoea versus normal bowel patterns (OR=1.34, 95% CI 1.01 to 1.78) or constipation (OR=1.45, 95% CI 1.03, 2.03) in adjusted analyses. The higher prevalence of MS in diarrhoea versus constipation (OR=1.27, 95% CI 0.97 to 1.67) was not independent of BMI. Conclusions: These findings suggest an association between diarrhoea and NAFLD that is independent of BMI.Item Biliary Epithelial Senescence in Liver Disease: There Will Be SASP(Frontiers Media, 2021-12-21) Meadows, Vik; Baiocchi, Leonardo; Kundu, Debjyoti; Sato, Keisaku; Fuentes, Yessenia; Wu, Chaodong; Chakraborty, Sanjukta; Glaser, Shannon; Alpini, Gianfranco; Kennedy, Lindsey; Francis, Heather; Medicine, School of MedicineCellular senescence is a pathophysiological phenomenon in which proliferative cells enter cell cycle arrest following DNA damage and other stress signals. Natural, permanent DNA damage can occur after repetitive cell division; however, acute stress or other injuries can push cells into premature senescence and eventually a senescence-associated secretory phenotype (SASP). In recent years, there has been increased evidence for the role of premature senescence in disease progression including diabetes, cardiac diseases, and end-stage liver diseases including cholestasis. Liver size and function change with aging, and presumably with increasing cellular senescence, so it is important to understand the mechanisms by which cellular senescence affects the functional nature of the liver in health and disease. As well, cells in a SASP state secrete a multitude of inflammatory and pro-fibrogenic factors that modulate the microenvironment. Cellular SASP and the associated, secreted factors have been implicated in the progression of liver diseases, such as cholestatic injury that target the biliary epithelial cells (i.e., cholangiocytes) lining the bile ducts. Indeed, cholangiocyte senescence/SASP is proposed to be a driver of disease phenotypes in a variety of liver injuries. Within this review, we will discuss the impact of cholangiocyte senescence and SASP in the pathogenesis of cholestatic disorders.Item Chronic-plus-binge alcohol intake induces production of proinflammatory mtDNA-enriched extracellular vesicles and steatohepatitis via ASK1/p38MAPKα-dependent mechanisms(American Society for Clinical Investigation, 2020-06-16) Ma, Jing; Cao, Haixia; Rodrigues, Robim M.; Xu, Mingjiang; Ren, Tianyi; He, Yong; Hwang, Seonghwan; Feng, Dechun; Ren, Ruixue; Yang, Peixin; Liangpunsakul, Suthat; Sun, Jian; Gao, Bin; Medicine, School of MedicineAlcohol-associated liver disease is a spectrum of liver disorders with histopathological changes ranging from simple steatosis to steatohepatitis, cirrhosis, and hepatocellular carcinoma. Recent data suggest that chronic-plus-binge ethanol intake induces steatohepatitis by promoting release by hepatocytes of proinflammatory mitochondrial DNA–enriched (mtDNA-enriched) extracellular vesicles (EVs). The aim of the present study was to investigate the role of the stress kinase apoptosis signal–regulating kinase 1 (ASK1) and p38 mitogen-activated protein kinase (p38) in chronic-plus-binge ethanol–induced steatohepatitis and mtDNA-enriched EV release. Microarray analysis revealed the greatest hepatic upregulation of metallothionein 1 and 2 (Mt1/2), which encode 2 of the most potent antioxidant proteins. Genetic deletion of the Mt1 and Mt2 genes aggravated ethanol-induced liver injury, as evidenced by elevation of serum ALT, neutrophil infiltration, oxidative stress, and ASK1/p38 activation in the liver. Inhibition or genetic deletion of Ask1 or p38 ameliorated ethanol-induced liver injury, inflammation, ROS levels, and expression of phagocytic oxidase and ER stress markers in the liver. In addition, inhibition of ASK1 or p38 also attenuated ethanol-induced mtDNA-enriched EV secretion from hepatocytes. Taken together, these findings indicate that induction of hepatic mtDNA-enriched EVs by ethanol is dependent on ASK1 and p38, thereby promoting alcoholic steatohepatitis.Item Clinical and genetic risk factors for progressive fibrosis in metabolic dysfunction-associated steatotic liver disease(Wolters Kluwer, 2024-07-05) Kaplan, David E.; Teerlink, Craig C.; Schwantes-An, Tae-Hwi; Norden-Krichmar, Trina M.; DuVall, Scott L.; Morgan, Timothy R.; Tsao, Philip S.; Voight, Benjamin F.; Lynch, Julie A.; Vujković, Marijana; Chang, Kyong-Mi; Medical and Molecular Genetics, School of MedicineBackground: Fibrosis-4 (FIB4) is a recommended noninvasive test to assess hepatic fibrosis among patients with metabolic dysfunction-associated steatotic liver disease (MASLD). Here, we used FIB4 trajectory over time (ie, "slope" of FIB4) as a surrogate marker of liver fibrosis progression and examined if FIB4 slope is associated with clinical and genetic factors among individuals with clinically defined MASLD within the Million Veteran Program Cohort. Methods: In this retrospective cohort study, FIB4 slopes were estimated through linear regression for participants with clinically defined MASLD and FIB4 <2.67 at baseline. FIB4 slope was correlated with demographic parameters and clinical outcomes using logistic regression and Cox proportional hazard models. FIB4 slope as a quantitative phenotype was used in a genome-wide association analysis in ancestry-specific analysis and multiancestry meta-analysis using METAL. Results: FIB4 slopes, generated from 98,361 subjects with MASLD (16,045 African, 74,320 European, and 7996 Hispanic), showed significant associations with sex, ancestry, and cardiometabolic risk factors (p < 0.05). FIB4 slopes also correlated strongly with hepatic outcomes and were independently associated with time to cirrhosis. Five genetic loci showed genome-wide significant associations (p < 5 × 10-8) with FIB4 slope among European ancestry subjects, including 2 known (PNPLA3 and TM6SF2) and 3 novel loci (TERT 5.1 × 10-11; LINC01088, 3.9 × 10-8; and MRC1, 2.9 × 10-9). Conclusions: Linear trajectories of FIB4 correlated significantly with time to progression to cirrhosis, with liver-related outcomes among individuals with MASLD and with known and novel genetic loci. FIB4 slope may be useful as a surrogate measure of fibrosis progression.Item Depdc5 deficiency exacerbates alcohol-induced hepatic steatosis via suppression of PPARα pathway(Springer Nature, 2021-07-15) Xu, Lin; Zhang, Xinge; Xin, Yue; Ma, Jie; Yang, Chenyan; Zhang, Xi; Hou, Guoqing; Dong, Xiaocheng Charlie; Sun, Zhaoli; Xiong, Xiwen; Cao, Xuan; Biochemistry and Molecular Biology, School of MedicineAlcohol-related liver disease (ALD), a condition caused by alcohol overconsumption, occurs in three stages of liver injury including steatosis, hepatitis, and cirrhosis. DEP domain-containing protein 5 (DEPDC5), a component of GAP activities towards Rags 1 (GATOR1) complex, is a repressor of amino acid-sensing branch of the mammalian target of rapamycin complex 1 (mTORC1) pathway. In the current study, we found that aberrant activation of mTORC1 was likely attributed to the reduction of DEPDC5 in the livers of ethanol-fed mice or ALD patients. To further define the in vivo role of DEPDC5 in ALD development, we generated Depdc5 hepatocyte-specific knockout mouse model (Depdc5-LKO) in which mTORC1 pathway was constitutively activated through loss of the inhibitory effect of GATOR1. Hepatic Depdc5 ablation leads to mild hepatomegaly and liver injury and protects against diet-induced liver steatosis. In contrast, ethanol-fed Depdc5-LKO mice developed severe hepatic steatosis and inflammation. Pharmacological intervention with Torin 1 suppressed mTORC1 activity and remarkably ameliorated ethanol-induced hepatic steatosis and inflammation in both control and Depdc5-LKO mice. The pathological effect of sustained mTORC1 activity in ALD may be attributed to the suppression of peroxisome proliferator activated receptor α (PPARα), the master regulator of fatty acid oxidation in hepatocytes, because fenofibrate (PPARα agonist) treatment reverses ethanol-induced liver steatosis and inflammation in Depdc5-LKO mice. These findings provide novel insights into the in vivo role of hepatic DEPDC5 in the development of ALD.Item Diet-induced dyslipidemia drives store-operated Ca2+ entry, Ca2+ dysregulation, non-alcoholic steatohepatitis, and coronary atherogenesis in metabolic syndrome(2010-07-21T20:06:24Z) Neeb, Zachary P.; Sturek, Michael Stephen; Breall, Jeffrey A.; Considine, Robert V.; Obukhov, Alexander; Tune, Johnathan D.Risk of coronary artery disease (CAD), the leading cause of death, greatly increases in metabolic syndrome. Metabolic syndrome (MetS; obesity, insulin resistance, glucose intolerance, dyslipidemia, and hypertension) is increasing in prevalence with sedentary lifestyles and poor nutrition. Non-alcoholic steatohepatitis (NASH; i.e. MetS liver) is progressive and decreases life expectancy, with CAD as the leading cause of death. Pathogenic Ca2+ regulation transforms coronary artery smooth muscle from a healthy, quiescent state to a diseased, proliferative phenotype thus majorly contributing to the development of CAD. In particular, store-operated Ca2+ entry (SOCE) in vascular smooth muscle is associated with atherosclerosis. Genetic predisposition may render individuals more susceptible to Ca2+ dysregulation, CAD, NASH, and MetS. However, the metabolic and cellular mechanisms underlying these disease states are poorly understood. Accordingly, the goal of this dissertation was to investigate the role of dyslipidemia within MetS in the development of Ca2+ dysregulation, CAD, and NASH. The overarching hypothesis was that dyslipidemia within MetS would be necessary for induction of NASH and increased SOCE that would primarily mediate development of CAD. To test this hypothesis we utilized the Ossabaw miniature swine model of MetS. Swine were fed one of five diets for different lengths of time to induce varying severity of MetS. Lean swine were fed normal maintenance chow diet. F/MetS swine were fed high Fructose (20% kcal) diet that induced normolipidemic MetS. TMetS were fed excess high Trans-fat/cholesterol atherogenic diet that induced mildly dyslipidemic MetS and CAD. XMetS were TMetS swine with eXercise. DMetS (TMetS + high fructose) were moderately dyslipidemic and developed MetS and extensive CAD. sDMetS (Short-term DMetS) developed MetS with mild dyslipidemia, but no CAD. MMetS (Mixed-source-fat/cholesterol/fructose) were severely dyslipidemic, exhibited NASH, and developed severe CAD. Dyslipidemia in MetS predicted NASH severity (all groups < DMetS << MMetS), CAD severity (i.e. Lean, F/MetS, sDMetS < XMetS < TMetS < DMetS < MMetS), and was necessary for STIM1/TRPC1-mediated SOCE, which preceded CAD. Exercise ameliorated SOCE and CAD compared to TMetS. In conclusion, dyslipidemia elicits TRPC1/STIM1 SOCE that mediates CAD, is necessary for and predictive of NASH and CAD, and whose affects are attenuated by exercise.Item Effect of different obesogenic diets on pancreatic histology in Ossabaw miniature swine(Wolters Kluwer, 2011-04) Fullenkamp, Allison M.; Bell, Lauren N.; Robbins, Reiesha D.; Lee, Lydia; Saxena, Romil; Alloosh, Mouhamad; Klaunig, James E.; Mirmira, Raghavendra G.; Sturek, Michael; Chalasani, Naga; Department of Medicine, IU School of MedicineOBJECTIVE: Obesity is a factor in the outcome and severity of pancreatic conditions. We examined the effect of hypercaloric diets on the pancreata of Ossabaw swine, a large animal model of metabolic syndrome and obesity. METHODS: Swine were fed with 1 of 4 diets: high-fructose (n = 9), atherogenic (n = 10), modified atherogenic (n = 6), or eucaloric standard diet (n = 12) for 24 weeks. Serum chemistries were measured, and pancreata were examined for histological abnormalities including steatosis, inflammation or fibrosis, insulin content, and oxidative stress. RESULTS: The fructose, atherogenic, and modified atherogenic diet groups exhibited obesity, metabolic syndrome, islet enlargement, and significantly increased pancreatic steatosis (22.9% ± 7.5%, 19.7% ± 7.7%, and 38.7% ± 15.3% fat in total tissue area, respectively) compared with controls (9.3% ± 1.9%; P < 0.05). The modified atherogenic diet group showed significantly increased oxidative stress levels as evidenced by elevated serum malondialdehyde (3.0 ± 3.3 vs 1.5 ± 0.3 μmol/L in controls; P = 0.006) and pancreatic malondialdehyde (0.1 ± 0.12 vs 0.04 ± 0.01 nmol/mg protein in controls; P = 0.01). None of the swine exhibited pancreatitis or cellular injury. CONCLUSIONS: Ossabaw swine fed with a modified atherogenic diet developed significant pancreatic steatosis and increased oxidative stress, but no other histological abnormalities were observed.Item The impact of mTOR, TFEB and Bid on non-alcoholic fatty liver disease and metabolic syndrome(2015-05-18) Zhang, Hao; Yin, Xiao-Ming; Chalasani, Naga P.; Konger, Raymond Lloyd; Murrell, Jill R.Non-alcoholic fatty liver disease and metabolic syndrome induced by high nutrient status have increasingly become a global health concern as it cause multiple complications. The mTOR complex is central in regulating anabolic reactions within cells under growth factors or under high nutrients stimulation. Constitutive and persistent activation of mTOR can impair cellular functions. In the first part of this study, we demonstrate a damping oscillation of mTOR activity during a long-term treatment of high fat diet. TFEB translocation and lysosomal enzyme activity also oscillate, but in an opposite direction. TFEB controls the lysosomal activity, autophagic degradation and lipid metabolism. Overexpression of wild type and mutant TFEB could inhibit NAFLD development in mice. In addition, TFEB location in nucleus inversely correlates with NAFLD severity in patients. mTOR activation under hypernutrition status suppresses TFEB translocation, inhibits lysosomal functions and autophagic degradation of lipid droplets. Inhibition of mTOR activity by rapamycin reverse the above phenotypes. Because mTOR activation also requires normal lysosomal function, the inhibition of TFEB by mTOR leads to decreased lysosomal function and mTOR downregulation. This negative feedback may explain the oscillation pattern of mTOR activation in long term high fat diet regimen and is a novel mechanism for inhibition of mTOR. In the second part of study, we report that Bid protein, previously known for its pro-apoptosis function in promoting mitochondrial permeability, plays an unexpected role in regulating fatty acid beta oxidation. Deletion of Bid in mice reprograms the body's response to hyper-nutrition caused by high fat diet, leading to the resistance to the development of obesity, liver steatosis and metabolic syndrome. These mice present a higher oxygen consumption, a lower respiratory quotient, and an increased beta-oxidation rate. Mechanistically, the high fat diet regimen triggers translocation of the full length Bid molecule to mitochondrial membrane. Genetic deletion of Bid also affects the stability of its binding protein, MTCH2 in the mitochondrial membrane. In summary, we describe in this study a mTOR-TFEB-lysosome feedback loop, which can regulate NAFLD development, and a novel Bid-mediated regulatory mechanism in beta-oxidation, which limits energy expenditure and promotes obesity development.Item Lack of liver glycogen causes hepatic insulin resistance and steatosis in mice(American Society for Biochemistry and Molecular Biology, 2017-06-23) Irimia, Jose M.; Meyer, Catalina M.; Segvich, Dyann M.; Surendran, Sneha; DePaoli-Roach, Anna A.; Morral, Nuria; Roach, Peter J.; Biochemistry and Molecular Biology, School of MedicineDisruption of the Gys2 gene encoding the liver isoform of glycogen synthase generates a mouse strain (LGSKO) that almost completely lacks hepatic glycogen, has impaired glucose disposal, and is pre-disposed to entering the fasted state. This study investigated how the lack of liver glycogen increases fat accumulation and the development of liver insulin resistance. Insulin signaling in LGSKO mice was reduced in liver, but not muscle, suggesting an organ-specific defect. Phosphorylation of components of the hepatic insulin-signaling pathway, namely IRS1, Akt, and GSK3, was decreased in LGSKO mice. Moreover, insulin stimulation of their phosphorylation was significantly suppressed, both temporally and in an insulin dose response. Phosphorylation of the insulin-regulated transcription factor FoxO1 was somewhat reduced and insulin treatment did not elicit normal translocation of FoxO1 out of the nucleus. Fat overaccumulated in LGSKO livers, showing an aberrant distribution in the acinus, an increase not explained by a reduction in hepatic triglyceride export. Rather, when administered orally to fasted mice, glucose was directed toward hepatic lipogenesis as judged by the activity, protein levels, and expression of several fatty acid synthesis genes, namely, acetyl-CoA carboxylase, fatty acid synthase, SREBP1c, chREBP, glucokinase, and pyruvate kinase. Furthermore, using cultured primary hepatocytes, we found that lipogenesis was increased by 40% in LGSKO cells compared with controls. Of note, the hepatic insulin resistance was not associated with increased levels of pro-inflammatory markers. Our results suggest that loss of liver glycogen synthesis diverts glucose toward fat synthesis, correlating with impaired hepatic insulin signaling and glucose disposal.