Project description:We aimed to develop an in vitro system that would recapitulate the key features of Non-Alcoholic Fatty Liver Disease (NAFLD). We took advantage of human pluripotent stem cells (hIPSCs) to establish 3D cultures of hIPSCs-derived hepatocytes to study NAFLD pathogenesis in vitro. Cultures were challenged with free fatty acid to mimic NAFLD, and transcriptomic analyses were used to confirm the presence of a NAFLD signature.

Project description:BACKGROUND AND AIMS: It is proposed that impaired expansion of subcutaneous adipose tissue (SAT), caused in part by an increase in adipose tissue fibrosis, redirects fatty acids to the liver and other organs, leading to ectopic lipid accumulation and insulin resistance. We therefore evaluated whether a decrease in SAT expandability, assessed by measuring SAT lipogenesis (triglyceride production), and an increase in SAT fibrogenesis (collagen production) are associated with nonalcoholic fatty liver disease (NAFLD) and insulin resistance in people with obesity. APPROACH AND RESULTS: In vivo SAT lipogenesis and fibrogenesis, the expression of SAT genes involved in extracellular matrix (ECM) formation, and insulin sensitivity were assessed in three groups stratified by adiposity, insulin sensitivity and intrahepatic triglyceride (IHTG) content: 1) healthy lean (Lean-NL; n=12); 2) obese with normal IHTG content and normal glucose tolerance (Ob-NL; n=25); and 3) obese with NAFLD and abnormal glucose metabolism (Ob-NAFLD; n=25). Abdominal SAT total triglyceride synthesis rates were greater in the Ob-NL (65.9±4.6 g/wk) and Ob-NAFLD (71.1±6.7 g/wk) than the Lean-NL group (16.2±2.8 g/wk), without a difference between the obese groups. Abdominal SAT collagen synthesis rate and the composite expression of collagen genes progressively increased from Lean-NL to Ob-NL to Ob-NAFLD and were greater in the Ob-NAFLD than the Ob-NL group (P<0.05). Collagen synthesis rate and the composite expression of collagen genes correlated with factors that regulate collagen production, including circulating insulin and fibrogenic factors in SAT (all P<0.001). CONCLUSIONS: Adipose tissue lipogenesis and expandability are not impaired in people with obesity and NAFLD. However, SAT fibrogenesis and extracellular matrix remodeling are greater in people with obesity and NAFLD than in those with obesity and normal IHTG content. ClinicalTrials.gov number: NCT02706262.

Project description:With an estimated prevalence of about 30% in western countries non-alcoholic fatty liver disease (NAFLD) is a major public health issue [PMID: 18956290]. NAFLD is associated with the metabolic syndrome of insulin resistance, obesity, glucose intolerance. Although many studies are pointing to an induction of insulin resistance by NAFLD causality between both phenotypes is not fully clarified. Furthermore, mechanisms leading to strongly differing progression of NAFLD have to be elucidated which range from mild steatosis up to severe steatohepatitis. Steatohepatitis might even result in liver cirrhosis and hepatocellular carcinoma. Additional complexity is introduced into the understanding of the disease by recent studies providing evidence for a direct development of carcinoma from steatosis without the formerly assumed intermediary phase of cirrhosis. Here, we investigate liver samples from patients with varying severities of steatosis in an integrative approach employing transcriptomics, serum biomarker profling, metabolomics data and systems biology models. Total RNA obtained from hepatocytes derived from nine obese patients with distinct grades of steatosis. This dataset is part of the TransQST collection.

Project description:Obesity alters circulating levels of pituitary hormones that govern hepatic immune-metabolic homeostasis, and dysregulation of which leads to NAFLD. Here, using diet induced obese mouse, we uncovered an blunted unfolded protein response (UPR) but elevated inflammatory signatures in pituitary glands of obese mice. Mechanistically, we demonstrated that the pituitary IRE1alpha-XBP1 UPR branch is essential for protecting against pituitary endocrine defects and NAFLD progression in obesity.

Project description:Thrombospondin 1 (TSP1) is a multifunctional matricellular protein. Previously we have shown that TSP1 plays an important role in obesity-associated metabolic complications including inflammation, insulin resistance, cardiovascular and renal disease. However, its contribution to obesity-associated non-alcoholic fatty liver disease (NAFLD) or non-alcoholic steatohepatitis (NASH) remains largely unknown and is determined in this study. High fat diet or AMLN diet-induced obese and insulin resistant NAFLD/NASH mouse models were utilized. In addition, tissue specific TSP1 knockout mice were utilized to determine the contribution of different cellular sources of obesity-induced TSP1 to NAFLD/NASH development. The data demonstrated that liver TSP1 levels were increased in experimental obese and insulin resistant NAFLD/NASH mouse models as well as in human obese NASH patients. Moreover, TSP1 deletion in hepatocyte or adipocytes did not protect mice from diet-induced NAFLD/NASH. However, myeloid/macrophage-specific TSP1 deletion protected mice against obesity-associated liver injury, accompanied by reduced liver inflammation and fibrosis. Importantly, this protection is independent of the levels of obesity and hepatic steatosis. Mechanistically, through an autocrine effect, macrophage-derived TSP1 suppressed SMPDL3B expression in liver, which amplified liver pro-inflammatory signaling (TLR4 signal pathway) and promoted NAFLD progression. Together, out data suggest that macrophage-derived TSP1 is a significant contributor to obesity-associated NAFLD/NASH development and progression and may serve as a therapeutic target for this disease.

Project description:Obesity alters circulating levels of pituitary hormones that govern hepatic immune-metabolic homeostasis, and dysregulation of which leads to NAFLD. Here, using diet induced obese mouse and IRE1PKO mice, we uncovered an blunted unfolded protein response (UPR) but elevated inflammatory signatures in pituitary glands of obese mice. Mechanistically, we demonstrated that the pituitary IRE1alpha-XBP1 UPR branch is essential for protecting against pituitary endocrine defects and NAFLD progression in obesity.

Project description:Obesity alters circulating levels of pituitary hormones that govern hepatic immune-metabolic homeostasis, and dysregulation of which leads to NAFLD. Here, using diet induced obese and IRE1PKO mice, we uncovered an blunted unfolded protein response (UPR) but elevated inflammatory signatures in pituitary glands of obese mice. Mechanistically, we demonstrated that the pituitary IRE1alpha-XBP1 UPR branch is essential for protecting against pituitary endocrine defects and NAFLD progression in obesity.

Project description:Obesity is a major risk factor for several chronic diseases including diabetes, fatty liver disease and cancer. Despite similar propensities for obesity, Hispanics and African Americans exhibit unique and distinct differences in obesity related outcomes such as greater risk of, obesity-related cancers in AA and non alcoholic fatty liver disease (NAFLD) in Hispanics. This study was aimed to determine whether differences in subcutaneous adipose tissue (SAT) gene expression in obese, Hispanic and AA young adults might explain ethnic differences in obesity-related phenotypes. cross-sectional study design to compare subcutaneous adipose tissue gene expression profiles of 19 Hispanic and 17 African American young adults

Project description:Analysis of the gene signature of steatosis associated to obesity in hepatocytes of Zucker fa/fa obese rats and their controls; identifying target genes linked to steatosis progression. or Obesity and insulin resistance-associated steatosis can be a non-inflammatory condition affecting hepatocytes or progress to steatohepatitis: a condition that can result in end-stage liver disease. Although molecular events leading to accumulation of lipid droplets in the liver have been identified individually, the complexity of the condition suggested that emergent target would be uncovered by a more comprehensive examination. Then, this study was aimed at establishing a gene signature of steatosis in hepatocytes and at identifying target genes linked to steatosis progression. Using Affymetrix oligonucleotide arrays, we compared transcriptomes of hepatocytes isolated from Zucker "fa/fa" obese rats with three different age-related grades of steatosis with those of their counterpart non-steatotic cells.

Project description:<p>Nonalcoholic fatty liver disease (NAFLD) is a major public health problem due to the high incidence affecting approximately one-third of the world’s population. NAFLD is usually linked to obesity and excessive weight. A subset of patients with NAFLD express normal or low body mass index; thus, the condition is called nonobese NAFLD or lean NAFLD. However, patients and healthcare professionals have little awareness and understanding of NAFLD in nonobese individuals. Furthermore, preclinical results from nonobese animal models with NAFLD are unclear. Gut microbiota and their metabolites in nonobese/lean NAFLD patients differ from those in obese NAFLD patients. Therefore, we analyzed the biochemical indices, intestinal flora and intestinal metabolites in a nonobese NAFLD mouse model established using a methionine-choline deficient (MCD) diet. The significantly lean MCD mice had a remarkable fatty liver with lower serum triglyceride and free fatty acid levels as well as higher alanine transaminase and aspartate transaminase levels than normal mice. 16s RNA sequencing of fecal DNA showed that the overall richness and diversity of the intestinal flora decreased in MCD mice, whereas the Firmicutes/Bacteroidota ratio was increased. <em>g_Tuzzerella, s_Bifidobacterium pseudolongum</em> and <em>s_Faecalibaculum rodentium</em> were the predominant species in nonobese NAFLD mice. Fecal metabolomics using LC-MS/MS revealed the potential biomarkers for the prognosis and diagnosis of nonobese NAFLD, including high levels of tyramine glucuronide, 9,12,13-TriHOME and pantetheine 4'-phosphate, and low levels of 3-carbamoyl-2-phenylpropionaldehyde, N-succinyl-L,L-2,6-diaminopimelate, 4-methyl-5-thiazoleethanol, homogentisic acid and estriol. Our findings could be useful to identify and develop drugs to treat nonobese NAFLD and lean NAFLD.</p>