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2. Development of a human liver microphysiological coculture system for higher throughput chemical safety assessment

Author

Ip, Blanche C., Madnick, Samantha J., Zheng, Sophia, van Tongeren, Tessa C.A., Hall, Susan J., Li, Hui, Martin, Suzanne, Spriggs, Sandrine, Carmichael, Paul, Chen, Wei, Ames, David, Breitweiser, Lori A., Pence, Heather E., Bowling, Andrew J., Johnson, Kamin J., Cubberley, Richard, Morgan, Jeffrey R., Boekelheide, Kim, Ip, Blanche C., Madnick, Samantha J., Zheng, Sophia, van Tongeren, Tessa C.A., Hall, Susan J., Li, Hui, Martin, Suzanne, Spriggs, Sandrine, Carmichael, Paul, Chen, Wei, Ames, David, Breitweiser, Lori A., Pence, Heather E., Bowling, Andrew J., Johnson, Kamin J., Cubberley, Richard, Morgan, Jeffrey R., and Boekelheide, Kim

Abstract

Chemicals in the systemic circulation can undergo hepatic xenobiotic metabolism, generate metabolites, and exhibit altered toxicity compared with their parent compounds. This article describes a 2-chamber liver-organ coculture model in a higher-throughput 96-well format for the determination of toxicity on target tissues in the presence of physiologically relevant human liver metabolism. This 2-chamber system is a hydrogel formed within each well consisting of a central well (target tissue) and an outer ring-shaped trough (human liver tissue). The target tissue chamber can be configured to accommodate a three-dimensional (3D) spheroid-shaped microtissue, or a 2-dimensional (2D) cell monolayer. Culture medium and compounds freely diffuse between the 2 chambers. Human-differentiated HepaRG liver cells are used to form the 3D human liver microtissues, which displayed robust protein expression of liver biomarkers (albumin, asialoglycoprotein receptor, Phase I cytochrome P450 [CYP3A4] enzyme, multidrug resistance-associated protein 2 transporter, and glycogen), and exhibited Phase I/II enzyme activities over the course of 17 days. Histological and ultrastructural analyses confirmed that the HepaRG microtissues presented a differentiated hepatocyte phenotype, including abundant mitochondria, endoplasmic reticulum, and bile canaliculi. Liver microtissue zonation characteristics could be easily modulated by maturation in different media supplements. Furthermore, our proof-of-concept study demonstrated the efficacy of this coculture model in evaluating testosterone-mediated androgen receptor responses in the presence of human liver metabolism. This liver-organ coculture system provides a practical, higher-throughput testing platform for metabolism-dependent bioactivity assessment of drugs/chemicals to better recapitulate the biological effects and potential toxicity of human exposures.

Published
2024

3. Development of a human liver microphysiological coculture system for higher throughput chemical safety assessment.

Author

Ip, Blanche C, Madnick, Samantha J, Zheng, Sophia, Tongeren, Tessa C A van, Hall, Susan J, Li, Hui, Martin, Suzanne, Spriggs, Sandrine, Carmichael, Paul, Chen, Wei, Ames, David, Breitweiser, Lori A, Pence, Heather E, Bowling, Andrew J, Johnson, Kamin J, Cubberley, Richard, Morgan, Jeffrey R, and Boekelheide, Kim

Subjects
*MICROPHYSIOLOGICAL systems, *CHEMICAL safety, *MULTIDRUG resistance-associated proteins, *ATP-binding cassette transporters, *LIVER cells, *LIVER, *ANDROGEN receptors, *CELL culture
Abstract

Chemicals in the systemic circulation can undergo hepatic xenobiotic metabolism, generate metabolites, and exhibit altered toxicity compared with their parent compounds. This article describes a 2-chamber liver-organ coculture model in a higher-throughput 96-well format for the determination of toxicity on target tissues in the presence of physiologically relevant human liver metabolism. This 2-chamber system is a hydrogel formed within each well consisting of a central well (target tissue) and an outer ring-shaped trough (human liver tissue). The target tissue chamber can be configured to accommodate a three-dimensional (3D) spheroid-shaped microtissue, or a 2-dimensional (2D) cell monolayer. Culture medium and compounds freely diffuse between the 2 chambers. Human-differentiated HepaRG liver cells are used to form the 3D human liver microtissues, which displayed robust protein expression of liver biomarkers (albumin, asialoglycoprotein receptor, Phase I cytochrome P450 [CYP3A4] enzyme, multidrug resistance-associated protein 2 transporter, and glycogen), and exhibited Phase I/II enzyme activities over the course of 17 days. Histological and ultrastructural analyses confirmed that the HepaRG microtissues presented a differentiated hepatocyte phenotype, including abundant mitochondria, endoplasmic reticulum, and bile canaliculi. Liver microtissue zonation characteristics could be easily modulated by maturation in different media supplements. Furthermore, our proof-of-concept study demonstrated the efficacy of this coculture model in evaluating testosterone-mediated androgen receptor responses in the presence of human liver metabolism. This liver-organ coculture system provides a practical, higher-throughput testing platform for metabolism-dependent bioactivity assessment of drugs/chemicals to better recapitulate the biological effects and potential toxicity of human exposures. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Fatty Acid Metabolites Combine with Reduced β Oxidation to Activate Th17 Inflammation in Human Type 2 Diabetes

Author

Nicholas, Dequina A., Proctor, Elizabeth A., Agrawal, Madhur, Belkina, Anna C., Van Nostrand, Stephen C., Panneerseelan-Bharath, Leena, Jones, Albert R., IV, Raval, Forum, Ip, Blanche C., Zhu, Min, Cacicedo, Jose M., Habib, Chloe, Sainz-Rueda, Nestor, Persky, Leah, Sullivan, Patrick G., Corkey, Barbara E., Apovian, Caroline M., Kern, Philip A., Lauffenburger, Douglas A., and Nikolajczyk, Barbara S.

Published
2019
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19. 3D Microtissues Mimic the Architecture, Estradiol Synthesis, and Gap Junction Intercellular Communication of the Avascular Granulosa.

Author

Ip, Blanche C, Leary, Elizabeth, Knorlein, Benjamin, Reich, David, Van, Vivian, Manning, Joshua, and Morgan, Jeffrey R

Subjects
*CELL junctions, *CELL communication, *IN vitro toxicity testing, *AROMATASE, *CONNEXIN 43, *BISPHENOL A, *OVARIAN follicle
Abstract

Humans are consistently exposed to thousands of untested chemicals that have been detected in the follicular fluid of the ovaries, and can disrupt reproductive health. Human granulosa cells (GCs) are the functional unit of the ovarian follicle with steroidogenic and signaling activities, and play a pivotal role in oocyte development. During follicle progression, GCs multiply to form a 3D avascular structure, and establish gap junction intercellular communication (GJIC) that is critical to maintaining optimal viability and function. We developed a high-throughput in vitro platform of human GCs for the screening of chemicals that can impact GJIC and estradiol (E2) production of human granulosa. Our granulosa 3D microtissues fabricated with human ovarian granulosa-like tumor KGN cells are multicell-layered structures that mimic the avascular granulosa layers surrounding the oocyte. These microtissues robustly expressed the steroidogenic CYP19 aromatase enzyme and GJIC intercellular membrane channel, connexin 43. Granulosa microtissues produced E2 at rates comparable to primary human GCs as previously reported. E2 production was suppressed by the CYP19 inhibitor, letrozole, and induced by CYP19 activators, bisphenol A at 100 µM, and genistein at 100 µM. Granulosa microtissues displayed active GJIC function, as demonstrated by the connexin 43-dependent diffusion of calcein fluorescent dye from microtissue surface to the core using high-throughput confocal microscopy in conjunction with our open-sourced automated image analysis tool. Overall, our 3D human granulosa screening platform is highly promising for predictive and efficient in vitro toxicity testing to screen for chemicals that contaminate follicular fluid and may affect fertility. [ABSTRACT FROM AUTHOR]

Published
2022
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21. Does fetal leptin and adiponectin influence children's lung function and risk of wheeze?

Author

Ip, Blanche C., Li, Nan, Jackson-Browne, Medina, Eliot, Melissa, Xu, Yingying, Chen, Aimin, Lanphear, Bruce P., Spanier, Adam J., and Braun, Joseph M.

Subjects
ADIPOKINES, PEPTIDE hormones, FETAL development, WHEEZE, RESPIRATORY organ sounds
Abstract

Adipocytokines, which are secreted during fetal development by both mothers and fetuses, may influence fetal lung development, but little human data are available. We used data from the HOME Study to investigate the associations of cord blood adipocytokine concentrations with children's lung forced expiratory volume (FEV1; N = 160) and their risk of wheeze (N = 281). We measured umbilical cord serum adipocytokine concentrations using enzyme-linked immunosorbent assays and FEV1 using a portable spirometer at ages 4 and 5 to calculate the percent predicted FEV1 (%FEV1). Parents completed standardized questionnaires of their child's wheeze symptoms every 6 months from birth to age 5, then again at ages 6 and 8. We used multivariable linear mixed models and modified Poisson regression with generalized estimating equations to estimate associations of adipocytokine concentrations (log2-transformed) with children's %FEV1 and the risk of wheeze, respectively, adjusting for sociodemographic, perinatal, and child factors. Cord serum leptin was not associated with children's %FEV1. Higher cord serum adiponectin concentrations were associated with higher %FEV1 in girls (β = 3.1, 95% confidence interval [CI]: 0.6, 5.6), but not in boys (β = −1.3, 95% CI: −5.9, 3.3) (sex × adiponectin p-value = 0.05). Higher leptin was associated with lower risk of wheeze in girls (RR = 0.74, 95% CI: 0.66, 0.84), but not boys (RR = 0.87, 95% CI: 0.69, 1.11) (sex × leptin p-value = 0.01). In contrast, higher adiponectin concentrations were associated with lower risk of wheeze (RR = 0.84, 95% CI: 0.73, 0.96) in both boys and girls. These data suggest that fetal adipocytokines may impact lung development and function in early childhood. Future studies are needed to confirm these findings and explore the mechanisms underlying these associations. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Supplemental_figures_for_Bio-Gripper_Hydrodynamics_by_Cui,_et_al. – Supplemental material for Hydrodynamics of the Bio-Gripper: A Fluid-Driven 'Claw Machine' for Soft Microtissue Translocation

Author

Cui, Francis R., Ip, Blanche C., Morgan, Jeffrey R., and Anubhav Tripathi

Subjects
FOS: Clinical medicine, 111599 Pharmacology and Pharmaceutical Sciences not elsewhere classified
Abstract

Supplemental material, Supplemental_figures_for_Bio-Gripper_Hydrodynamics_by_Cui,_et_al. for Hydrodynamics of the Bio-Gripper: A Fluid-Driven “Claw Machine” for Soft Microtissue Translocation by Francis R. Cui, Blanche C. Ip, Jeffrey R. Morgan and Anubhav Tripathi in SLAS Technology

Published
2018
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25. Advances in the quantification of mitochondrial function in primary human immune cells through extracellular flux analysis

Author

Massachusetts Institute of Technology. Department of Biological Engineering, Proctor, Elizabeth A, Lauffenburger, Douglas A, Nicholas, Dequina, Raval, Forum M., Ip, Blanche C., Habib, Chloe, Ritou, Eleni, Grammatopoulos, Tom N., Steenkamp, Devin, Dooms, Hans, Apovian, Caroline M., Nikolajczyk, Barbara S., Massachusetts Institute of Technology. Department of Biological Engineering, Proctor, Elizabeth A, Lauffenburger, Douglas A, Nicholas, Dequina, Raval, Forum M., Ip, Blanche C., Habib, Chloe, Ritou, Eleni, Grammatopoulos, Tom N., Steenkamp, Devin, Dooms, Hans, Apovian, Caroline M., and Nikolajczyk, Barbara S.

Abstract

Numerous studies show that mitochondrial energy generation determines the effectiveness of immune responses. Furthermore, changes in mitochondrial function may regulate lymphocyte function in inflammatory diseases like type 2 diabetes. Analysis of lymphocyte mitochondrial function has been facilitated by introduction of 96-well format extracellular flux (XF96) analyzers, but the technology remains imperfect for analysis of human lymphocytes. Limitations in XF technology include the lack of practical protocols for analysis of archived human cells, and inadequate data analysis tools that require manual quality checks. Current analysis tools for XF outcomes are also unable to automatically assess data quality and delete untenable data from the relatively high number of biological replicates needed to power complex human cell studies. The objectives of work presented herein are to test the impact of common cellular manipulations on XF outcomes, and to develop and validate a new automated tool that objectively analyzes a virtually unlimited number of samples to quantitate mitochondrial function in immune cells. We present significant improvements on previous XF analyses of primary human cells that will be absolutely essential to test the prediction that changes in immune cell mitochondrial function and fuel sources support immune dysfunction in chronic inflammatory diseases like type 2 diabetes., United States. National Institutes of Health (R01DK108056), United States. National Institutes of Health (R24DK090963)

Published
2017

27. Advances in the quantification of mitochondrial function in primary human immune cells through extracellular flux analysis

Author

Nicholas, Dequina, primary, Proctor, Elizabeth A., additional, Raval, Forum M., additional, Ip, Blanche C., additional, Habib, Chloe, additional, Ritou, Eleni, additional, Grammatopoulos, Tom N., additional, Steenkamp, Devin, additional, Dooms, Hans, additional, Apovian, Caroline M., additional, Lauffenburger, Douglas A., additional, and Nikolajczyk, Barbara S., additional

Published
2017
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28. High-Refined–Carbohydrate and High-Fat Diets Induce Comparable Hepatic Tumorigenesis in Male Mice123

Author

Ip, Blanche C., Liu, Chun, Smith, Donald E., Ausman, Lynne M., and Wang, Xiang-Dong

Subjects
Male, Carcinoma, Hepatocellular, Nutrition and Disease, MAP Kinase Signaling System, Lipogenesis, Eukaryotic Initiation Factor-2, Liver Neoplasms, Apoptosis, Dietary Fats, Hepatitis, Fatty Liver, Mice, Inbred C57BL, Disease Models, Animal, Mice, Random Allocation, eIF-2 Kinase, Carcinogens, Dietary Carbohydrates, Animals, Diethylnitrosamine
Abstract

Previous studies demonstrated that diet-induced obese mice fed a semi-purified high-fat diet (HFD) had greater liver tumorigenesis than mice fed a non-semi-purified diet. Because ingredients present in standard unpurified diets may elicit potential chemopreventive properties that are not present in semi-purified diets, the present study evaluated hepatic tumorigenic effects of dietary fat by replacing it with refined carbohydrates [digestible saccharides; high-carbohydrate diet (HCD)] in a semi-purified diet without altering other components. Two-wk-old C57Bl/6J male mice were randomly injected i.p. with either the liver-specific carcinogen diethylnitrosamine (25 mg/kg body weight) to induce liver cancer or saline as the nontumor control. At age 6 wk, mice with or without cancer initiation were further randomly assigned to an HFD (26% and 60% energy from carbohydrates and fat, respectively) or an HCD (66% and 12% energy from carbohydrates and fat, respectively) and consumed food ad libitum for 24 wk. Results showed that HCD-fed mice had a comparable degree of hepatic tumorigenesis (tumor number and volume) as HFD-fed mice, despite having significantly reduced body weights. HCD feeding induced greater hepatic endoplasmic reticulum (ER) stress-mediated protein kinase RNA-activated-like kinase (PERK) activation and oncogenic interleukin-6/signal transducer and activator of transcription 3 signaling than HFD feeding. HCD-stimulated PERK signaling was associated with elevated expression of prosurvival markers in tumors, including induced protein kinase B activation, increased extracellular signal-regulated kinases 1/2 phosphorylation, and elevated cyclin D1 protein expression. However, HCD-mediated PERK activation in tumors was also positively associated with markers of proapoptosis, which included elevated CCAAT/enhancer-binding protein homology protein expression and increased cleaved caspase-3. HCD-fed mice had greater severity in hepatic steatosis than HFD-fed mice. HCD-induced steatosis exacerbation was associated with increased expression in hepatic de novo lipogenic markers that can promote ER stress. Together, these data indicated that chronic HCD consumption by mice can produce comparable severity of hepatic tumorigenesis as HFD consumption, potentially through upregulating PERK-mediated ER stress.

Published
2014

30. Aggravation of nonalcoholic steatohepatitis by moderate alcohol consumption is associated with decreased SIRT1 activity in rats

Author

Nascimento, André F., Ip, Blanche C., Luvizotto, Renata A. M., Seitz, Helmut K., and Wang, Xiang-Dong

Subjects
nutritional and metabolic diseases, Original Article, hormones, hormone substitutes, and hormone antagonists
Abstract

Chronic alcohol intake decreases adiponectin and sirtuin 1 (SIRT1) expressions, both of which have been implicated in various biological processes including inflammation, apoptosis and metabolism. We have previously shown that moderate consumption of alcohol aggravates liver inflammation and apoptosis in rats with pre-existing nonalcoholic steatohepatitis (NASH). This study investigated whether moderate alcohol intake alters SIRT1 activity, adiponectin/Adiponectin receptor (AdipoR)-related signaling and lipid metabolism in a pre-existing NASH status. Sprague-Dawley rats were fed with a high-fat diet (71% energy from fat) for 6 weeks to induce NASH then subsequently divided into 2 sub-groups: fed either a modified high-fat diet (HFD, 55% energy from fat) or a modified high-fat alcoholic diet (HFA, 55% energy from fat and 16% energy from ethanol) for an additional 4 weeks. We observed in comparison to HFD group, HFA increased hepatic nuclear SIRT1 protein but decreased its deacetylase activity. SREBP-1c protein expression and FAS mRNA levels were significantly upregulated, while DGAT1/2 and CPT-I mRNA levels were downregulated in the livers of HFA compared to HFD. Although hepatic AdipoR1 decreased, HFA did not alter AdipoR2 and their downstream signaling. There were no significant changes in plasma adiponectin and free fatty acids (FFA), as well as adiponectin expression in adipose tissue between the two groups. The present study indicates that suppression in SIRT1 deacetylase activity contributes to alcohol-exacerbated hepatic inflammation and apoptosis in rats with pre-existing NASH. In addition, moderate alcohol intake did not modulate adiponectin/AdipoR signaling axis in this model.

Published
2013

35. Tumor progression locus 2 ablation suppressed hepatocellular carcinoma development by inhibiting hepatic inflammation and steatosis in mice.

Author

Xinli Li, Chun Liu, Ip, Blanche C., Kang-Quan Hu, Smith, Donald E., Greenberg, Andrew S., and Xiang-Dong Wang

Subjects
CANCER invasiveness, LOCUS (Genetics), LIVER cancer, FATTY degeneration, LABORATORY mice, KNOCKOUT mice, GENETICS
Abstract

Background: Tumor progression locus 2 (TPL2), a serine-threonine kinase, functions as a critical regulator of inflammatory pathways and mediates oncogenic events. The potential role of Tpl2 in nonalcoholic fatty liver disease (NAFLD) associated hepatocellular carcinoma (HCC) development remains unknown. Methods: Both wild-type and Tpl2 knockout male mice were initiated by a hepatic carcinogen (diethylnitrosamine, i.p. with a single dose of 25 mg.kg-1)at 2 weeks of age, and then were given the high carbohydrate diet feeding to induce hepatic steatosis, inflammation, adenoma and HCC for 24 weeks. Results: Tpl2 knockout mice had significantly lower incidences of liver tumor and developed hepatocellular adenoma only, which is contrast to wild-type mice where they all developed HCC. Tpl2 knockout mice had significantly downregulated phosphorylation of JNK and ERK, and levels of mRNA expression of pro-inflammatory cytokines (Il-1β, Il-18, Mcp-1 and Nalp3), which correlated with the reduced incidence and number of hepatic inflammatory foci. Furthermore, Tpl2 ablation resulted in decreased hepatic steatosis and expression of de novo lipogenesis related markers (ACC, SCD1, SREBP1C and AKT phosphorylation), as well as reduction of endoplasmic reticulum stress biomarkers PERK and eIF-2a. Conclusion: The study revealed for the first time that Tpl2 plays a significant role in promoting HCC development by its pro-inflammatory effect, which suggested that Tpl2 could be a molecular target for HCC prevention. [ABSTRACT FROM AUTHOR]

Published
2015
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37. Primary Human Cell-Derived Extracellular Matrix from Decellularized Fibroblast Microtissues with Tissue-Dependent Composition and Microstructure.

Author

Fonseca VC, Van V, and Ip BC

Abstract

Human extracellular matrix (ECM) exhibits complex protein composition and architecture depending on tissue and disease state, which remains challenging to reverse engineer. One promising approach is based on cell-secreted ECM from human fibroblasts, which can then be decellularized into an acellular biomaterial. However, fibroblasts initially seeded on rigid tissue culture plastic or biomaterial scaffolds experience aberrant mechanical cues that influence ECM deposition. Here, we show that engineered microtissues of primary human fibroblasts seeded in low-adhesion microwells can be decellularized to produce human, tissue-specific ECM. We investigate: 1) cardiac fibroblasts, as well as 2) lung fibroblasts from healthy, idiopathic fibrosis and chronic obstructive pulmonary disease donors. We demonstrate optimized culture and decellularization conditions, then characterize gene expression and protein composition. We further characterize ECM microstructure and mechanical properties. We envision that this method could be utilized for biomanufacturing of patient and tissue-specific ECM for organoid drug screening as well as implantable scaffolds., Impact: In this study, we demonstrate a method for preparing decellularized matrix using primary human fibroblasts with tissue and disease-specific features. We aggregate single cell dispersions into engineered tissues using low adhesion microwells and show culture conditions that promote ECM deposition. We demonstrate this approach for cardiac fibroblasts as well as lung fibroblasts (both normal and diseased). We systematically investigate tissue morphology, matrix architecture, and mechanical properties, along with transcriptomic and proteomic analysis. This approach should be widely applicable for generating personalized ECM with features of patient tissues and disease state, relevant for culturing patient cells ex vivo as well as implantation for therapeutic treatments.

Published
2023
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38. Non-alcoholic steatohepatitis and hepatocellular carcinoma: implications for lycopene intervention.

Author

Ip BC and Wang XD

Subjects
Animals, Anti-Inflammatory Agents pharmacology, Antioxidants pharmacology, Disease Models, Animal, Humans, Lycopene, Solanum lycopersicum chemistry, Non-alcoholic Fatty Liver Disease, Oxidative Stress drug effects, Carcinoma, Hepatocellular drug therapy, Carotenoids pharmacology, Fatty Liver drug therapy, Liver Neoplasms drug therapy
Abstract

Increased prevalence of non-alcoholic fatty liver disease (NAFLD) is one of the consequences of the current obesity epidemic. NAFLD is a major form of chronic liver disease that is highly prevalent in obese and overweight adults and children. Nonalcoholic steatohepatitis (NASH) is the severe form of NAFLD, and uncontrolled inflammation as displayed in NASH has been identified as one of the key events in enhancing hepatic carcinogenesis. Lycopene is a non-provitamin A carotenoid and the pigment principally responsible for the characteristic deep-red color of ripe tomato and tomato products, as well as some fruits and vegetables. Lycopene's innate antioxidant and anti-inflammatory properties have generated research interests on its capacity to protect against human diseases that are associated with oxidative stress and inflammation. In addition, differential mechanisms of lycopene metabolism including endogenous cleavage by carotenoid cleavage oxygenases (BCOs), generate lycopene metabolites that may also have significant impact on human disease development. However, it remains to be elucidated as to whether lycopene or its metabolites apolycopenoids have protective effects against obesity-related complications including inflammation and tumorigenesis. This article summarizes the in vivo experiments that elucidated molecular mechanisms associated with obesity-related hepatic inflammation and carcinogenesis. This review also provides an overview of lycopene metabolism, and the molecular pathways involved in the potential beneficial properties of lycopene and apolycopenoids. More research is clearly needed to fully unravel the importance of BCOs in tomato carotenoid metabolism and the consequence on human health and diseases.

Published
2013
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39. Aggravation of nonalcoholic steatohepatitis by moderate alcohol consumption is associated with decreased SIRT1 activity in rats.

Author

Nascimento AF, Ip BC, Luvizotto RA, Seitz HK, and Wang XD

Abstract

Chronic alcohol intake decreases adiponectin and sirtuin 1 (SIRT1) expressions, both of which have been implicated in various biological processes including inflammation, apoptosis and metabolism. We have previously shown that moderate consumption of alcohol aggravates liver inflammation and apoptosis in rats with pre-existing nonalcoholic steatohepatitis (NASH). This study investigated whether moderate alcohol intake alters SIRT1 activity, adiponectin/Adiponectin receptor (AdipoR)-related signaling and lipid metabolism in a pre-existing NASH status. Sprague-Dawley rats were fed with a high-fat diet (71% energy from fat) for 6 weeks to induce NASH then subsequently divided into 2 sub-groups: fed either a modified high-fat diet (HFD, 55% energy from fat) or a modified high-fat alcoholic diet (HFA, 55% energy from fat and 16% energy from ethanol) for an additional 4 weeks. We observed in comparison to HFD group, HFA increased hepatic nuclear SIRT1 protein but decreased its deacetylase activity. SREBP-1c protein expression and FAS mRNA levels were significantly upregulated, while DGAT1/2 and CPT-I mRNA levels were downregulated in the livers of HFA compared to HFD. Although hepatic AdipoR1 decreased, HFA did not alter AdipoR2 and their downstream signaling. There were no significant changes in plasma adiponectin and free fatty acids (FFA), as well as adiponectin expression in adipose tissue between the two groups. The present study indicates that suppression in SIRT1 deacetylase activity contributes to alcohol-exacerbated hepatic inflammation and apoptosis in rats with pre-existing NASH. In addition, moderate alcohol intake did not modulate adiponectin/AdipoR signaling axis in this model.

Published
2013
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