Your search keyword '"human hepatocyte"' showing total 175 results

1. Antibacterial activity against pathogenic Vibrio and cytotoxicity on human hepatocyte of nano-silver prepared by polysaccharide-protein complexes

Author

Peirong He, Wenying Wang, and Wenjie Jian

Subjects

pathogenic Vibrio, silver nanoparticles, cytotoxicity, antibacterial activity, polysaccharide-protein complexes, human hepatocyte, Microbiology, QR1-502

Abstract

Silver nanoparticles (AgNPs) are potential antibacterial agents against pathogenic Vibrio bacteria in the field of public health, yet their widespread use is limited by dispersibility and biocompatibility. In a previous study, highly dispersible AgNPs were fabricated using a polysaccharide–protein complex (PSP) obtained from the viscera of Haliotis discus. In this study, the antibacterial activity of PSP-AgNPs against pathogenic Vibrio and its cytotoxicity for human hepatocytes (LO2) was evaluated. At dosages of 3.125–25.0 μg/mL, PSP-AgNPs demonstrated excellent antibacterial activity against several pathogenic Vibrio strains (such as V. fluvialis, V. mimicus, V. hollisae, V. vulnificus, and V. furnissii), and no cytotoxicity on LO2 cells. This was evidenced by cellular viability, reactive oxygen species, and antioxidase activities. However, severe cytotoxicity was observed at a PSP-AgNPs concentration of 50.0 μg/mL. Furthermore, intracellular oxidative stress was the predominant mechanism of toxicity induced by PSP-AgNPs. Overall, PSP-AgNPs are highly biocompatible in the range of effective antibacterial dosages, identifying them as promising bactericide candidates in the field of public health.

Published

2024

2. Hepatocyte Intrinsic Innate Antiviral Immunity against Hepatitis Delta Virus Infection: The Voices of Bona Fide Human Hepatocytes.

Author

Woo, Yein, Ma, Muyuan, Okawa, Masashi, and Saito, Takeshi

Subjects

*HEPATITIS D virus, *NATURAL immunity, *PATTERN perception receptors, *LIVER cells, *VIRUS diseases, *KNOWLEDGE gap theory

Abstract

The pathogenesis of viral infection is attributed to two folds: intrinsic cell death pathway activation due to the viral cytopathic effect, and immune-mediated extrinsic cellular injuries. The immune system, encompassing both innate and adaptive immunity, therefore acts as a double-edged sword in viral infection. Insufficient potency permits pathogens to establish lifelong persistent infection and its consequences, while excessive activation leads to organ damage beyond its mission to control viral pathogens. The innate immune response serves as the front line of defense against viral infection, which is triggered through the recognition of viral products, referred to as pathogen-associated molecular patterns (PAMPs), by host cell pattern recognition receptors (PRRs). The PRRs–PAMPs interaction results in the induction of interferon-stimulated genes (ISGs) in infected cells, as well as the secretion of interferons (IFNs), to establish a tissue-wide antiviral state in an autocrine and paracrine manner. Cumulative evidence suggests significant variability in the expression patterns of PRRs, the induction potency of ISGs and IFNs, and the IFN response across different cell types and species. Hence, in our understanding of viral hepatitis pathogenesis, insights gained through hepatoma cell lines or murine-based experimental systems are uncertain in precisely recapitulating the innate antiviral response of genuine human hepatocytes. Accordingly, this review article aims to extract and summarize evidence made possible with bona fide human hepatocytes-based study tools, along with their clinical relevance and implications, as well as to identify the remaining gaps in knowledge for future investigations. [ABSTRACT FROM AUTHOR]

Published

2024

3. Hepatocyte Intrinsic Innate Antiviral Immunity against Hepatitis Delta Virus Infection: The Voices of Bona Fide Human Hepatocytes

Author

Yein Woo, Muyuan Ma, Masashi Okawa, and Takeshi Saito

Subjects

hepatitis delta virus (HDV), hepatitis B virus (HBV), human hepatocyte, humanized liver chimeric mouse, humanized experimental model, Microbiology, QR1-502

Abstract

The pathogenesis of viral infection is attributed to two folds: intrinsic cell death pathway activation due to the viral cytopathic effect, and immune-mediated extrinsic cellular injuries. The immune system, encompassing both innate and adaptive immunity, therefore acts as a double-edged sword in viral infection. Insufficient potency permits pathogens to establish lifelong persistent infection and its consequences, while excessive activation leads to organ damage beyond its mission to control viral pathogens. The innate immune response serves as the front line of defense against viral infection, which is triggered through the recognition of viral products, referred to as pathogen-associated molecular patterns (PAMPs), by host cell pattern recognition receptors (PRRs). The PRRs–PAMPs interaction results in the induction of interferon-stimulated genes (ISGs) in infected cells, as well as the secretion of interferons (IFNs), to establish a tissue-wide antiviral state in an autocrine and paracrine manner. Cumulative evidence suggests significant variability in the expression patterns of PRRs, the induction potency of ISGs and IFNs, and the IFN response across different cell types and species. Hence, in our understanding of viral hepatitis pathogenesis, insights gained through hepatoma cell lines or murine-based experimental systems are uncertain in precisely recapitulating the innate antiviral response of genuine human hepatocytes. Accordingly, this review article aims to extract and summarize evidence made possible with bona fide human hepatocytes-based study tools, along with their clinical relevance and implications, as well as to identify the remaining gaps in knowledge for future investigations.

Published

2024

4. Metabolism Study of Anamorelin, a GHSR1a Receptor Agonist Potentially Misused in Sport, with Human Hepatocytes and LC-HRMS/MS.

Author

Gameli, Prince Sellase, Taoussi, Omayema, Basile, Giuseppe, Carlier, Jeremy, and Busardò, Francesco Paolo

Subjects

TANDEM mass spectrometry, LIVER cells, INGESTION, METABOLOMICS, PHYSICAL mobility, METABOLISM, SOMATOTROPIN, GHRELIN receptors

Abstract

Anamorelin, developed for the treatment of cancer cachexia, is an orally active medication that improves appetite and food intake, thereby increasing body mass and physical functioning. It is classified as a growth hormone secretagogue and strictly monitored by the World Anti-Doping Agency (WADA), owing to its anabolic enhancing potential. Identifying anamorelin and/or metabolite biomarkers of consumption is critical in doping controls. However, there are currently no data available on anamorelin human metabolic fate. The aim of this study was to investigate and identify biomarkers characteristic of anamorelin intake using in silico metabolite predictions with GLORYx, in vitro incubation with 10-donor-pooled human hepatocytes, liquid chromatography-high-resolution tandem mass spectrometry (LC-HRMS/MS) analysis, and data processing with Thermo Scientific's Compound Discoverer. In silico prediction resulted in N-acetylation at the methylalanyl group as the main transformation (score, 88%). Others including hydroxylation at the indole substructure, and oxidation and N-demethylation at the trimethylhydrazino group were predicted (score, ≤36%). Hepatocyte incubations resulted in 14 phase I metabolites formed through N-demethylation at the trimethylhydrazino group, N-dealkylation at the piperidine ring, and oxidation at the indole and methylalanyl groups; and two phase II glucuronide conjugates occurring at the indole. We propose four metabolites detected as specific biomarkers for toxicological screening. [ABSTRACT FROM AUTHOR]

Published

2023

5. Metabolism Study of Anamorelin, a GHSR1a Receptor Agonist Potentially Misused in Sport, with Human Hepatocytes and LC-HRMS/MS

Author

Prince Sellase Gameli, Omayema Taoussi, Giuseppe Basile, Jeremy Carlier, and Francesco Paolo Busardò

Subjects

anamorelin, ghrelin receptor agonist, doping, metabolism, metabolite prediction, human hepatocyte, Microbiology, QR1-502

Abstract

Anamorelin, developed for the treatment of cancer cachexia, is an orally active medication that improves appetite and food intake, thereby increasing body mass and physical functioning. It is classified as a growth hormone secretagogue and strictly monitored by the World Anti-Doping Agency (WADA), owing to its anabolic enhancing potential. Identifying anamorelin and/or metabolite biomarkers of consumption is critical in doping controls. However, there are currently no data available on anamorelin human metabolic fate. The aim of this study was to investigate and identify biomarkers characteristic of anamorelin intake using in silico metabolite predictions with GLORYx, in vitro incubation with 10-donor-pooled human hepatocytes, liquid chromatography-high-resolution tandem mass spectrometry (LC-HRMS/MS) analysis, and data processing with Thermo Scientific’s Compound Discoverer. In silico prediction resulted in N-acetylation at the methylalanyl group as the main transformation (score, 88%). Others including hydroxylation at the indole substructure, and oxidation and N-demethylation at the trimethylhydrazino group were predicted (score, ≤36%). Hepatocyte incubations resulted in 14 phase I metabolites formed through N-demethylation at the trimethylhydrazino group, N-dealkylation at the piperidine ring, and oxidation at the indole and methylalanyl groups; and two phase II glucuronide conjugates occurring at the indole. We propose four metabolites detected as specific biomarkers for toxicological screening.

Published

2023

6. Differentiation of hepatocyte-like cells from human pluripotent stem cells

Author

Withey, Sarah, Hanley, Neil, and Piper Hanley, Karen

Subjects

Fetal liver, Mature liver, RNA sequencing, Human hepatocyte, Hepatocyte-like cells, Human embryonic stem cells

Abstract

This thesis, titled 'Differentiation of hepatocyte-like cells from human pluripotent stem cells', is submitted to the University of Manchester for the degree of Doctor of Philosophy, by Sarah Withey, on 3rd March 2016. This thesis is focused on the directed differentiation of human embryonic stem cells (ESCs) towards hepatocyte-like cells (HLCs), for their use in predicting the hepatotoxicity of new chemical entities during drug development. To this end, this project focuses on the role of the liver in drug metabolism. ESCs were directed towards a hepatic phenotype by mimicking in vivo embryonic liver development. Liver-specific differentiation was confirmed by multiple functional and phenotypic analysis comparing HLCs to fetal and adult hepatocytes, as well as to non-liver tissue. HLCs were shown to be consistently more similar to hepatocytes than any other cell types, determined by increases in albumin secretion, alpha1-antitrypsin production, CYP3A activity and other transcript and protein parameters. Transcriptomic changes during differentiation mimicked human embryogenesis. By specifically including fresh human fetal and adult hepatocyte controls, HLC maturity was shown by transcript, protein and function to be fetal-like and short of the adult phenotype. Attempts were made to increase the efficiency of the differentiation protocol by passaging cells to increase cellular output part-way through the differentiation procedure. Expanding hepatoblast-like cells (hepatocyte precursor cells) increased cellular output by approximately 3x as much as non-passaged cells, but lost some hepatocyte-specific gene expression as determined by Q-PCR (including CYP450 related genes). To generate cells with a more adult phenotype, RNA-sequencing was undertaken on cells at various stages of the differentiation process, and compared to published data on fetal hepatocytes, various other non-liver fetal tissue and adult hepatocytes. This helped to identify differentially expressed genes between HLCs and adult hepatocytes. The list of genes was likely to contain the key factors that drive a mature hepatocyte phenotype from a fetal-like stage; those which the HLCs are failing to express. A variety of small molecules were identified which, based on the literature, are predicted to upregulate the 'adult-specific' transcription factors, which were less expressed in HLCs compared to adult liver. As determined by q-PCR, of the nine compounds taken through to dosing experiments on HLCs, an AKL5 inhibitor and thyroid hormone (ALK5i II and T3) increased the expression of xenobiotic metabolism related genes and various transcription factors, which have been shown to be important in liver development and maturation. These factors also increased serum albumin levels, another marker of a mature hepatocyte. These findings could be used to help to improve the differentiation of mature HLCs from human pluripotent stem cells.

Published

2016

7. Development of AAV Variants with Human Hepatocyte Tropism and Neutralizing Antibody Escape Capacity

Author

Xiaolei Pei, Wenwei Shao, Allene Xing, Charles Askew, Xiaojing Chen, Caibin Cui, Yasmina L. Abajas, David A. Gerber, Elizabeth P. Merricks, Timothy C. Nichols, Wuping Li, R. Jude Samulski, and Chengwen Li

Subjects

AAV, human hepatocyte, tropism, Nabs, chimeric mice, Genetics, QH426-470, Cytology, QH573-671

Abstract

Adeno-associated virus (AAV) vectors have been successfully used in patients with bleeding disorders and blindness. For human liver targeting, two major factors restrict effective AAV transduction after systemic administration of AAV vectors: human hepatocyte tropism and neutralizing antibodies (Nabs). In this study, we attempted to isolate AAV variants with the ability to transduce human hepatocytes and escape Nabs using a directed evolution approach in vivo. After four cycles of selection, 14 AAV capsid mutants were identified from a capsid shuffling library selected in the presence of human Intravenous Immunoglobulin (IVIG) and isolated from human hepatocytes xenografted into chimeric mice. AAV neutralization assays using IVIG showed that most of the mutants showed the Nab escape pattern in a manner similar to that of AAV8 or AAV9 and better than that of other AAV serotypes. Different mutants displayed varying capacities to escape Nab activity from individual serum samples collected from healthy subjects or hemophilia patients. The mutant AAV LP2-10 was found in 12 colonies out of 25, which was composed of capsids from AAV serotypes 2, 6, 8, and 9, with VP3 subunits derived from AAV8 swapped with AAV6 from residues 261 to 272. The mutant AAV LP2-10 manifested a higher ability than that of other serotypes to escape Nabs in IVIG and most human serum samples. After injection of AAV vectors encoding a self-complementary GFP cassette into chimeric mice, LP2-10 transduced human hepatocytes with efficiency similar to that of AAV8. In summary, AAV mutants can be isolated in humanized mice with both human hepatocyte tropism and the ability to evade Nab activity.

Published

2020

8. Establishment of Humanized Mice for the Study of HBV.

Author

Lai, Fritz, Wee, Cherry Yong Yi, and Chen, Qingfeng

Subjects

TRANSGENIC animals, HEPATITIS B virus, CELL surface antigens, TRANSGENIC mice, VIRAL hepatitis, METABOLIC clearance rate, REVERSE genetics

Abstract

Viral hepatitis particularly Hepatitis B Virus (HBV) is still an ongoing health issue worldwide. Despite the vast technological advancements in research and development, only HBV vaccines, typically given during early years, are currently available as a preventive measure against acquiring the disease from a secondary source. In general, HBV can be cleared naturally by the human immune system if detected at low levels early. However, long term circulation of HBV in the peripheral blood may be detrimental to the human liver, specifically targeting human hepatocytes for cccDNA integration which inevitably supports HBV life cycle for the purpose of reinfection in healthy cells. Although there is some success in using nucleoside analogs or polyclonal antibodies targeting HBV surface antigens (HBsAg) in patients with acute or chronic HBV+ (CHB), majority of them would either respond only partially or succumb to the disease entirely unless they undergo liver transplants from a fully matched healthy donor and even so may not necessarily guarantee a 100% chance of survival. Indeed, in vitro/ex vivo cultures and various transgenic animal models have already provided us with a good understanding of HBV but they primarily lack human specificity or virus-host interactions in the presence of human immune surveillance. Therefore, the demand of utilizing humanized mice has increased over the last decade as a pre-clinical platform for investigating human-specific immune responses against HBV as well as identifying potential immunotherapeutic strategies in eradicating the virus. Basically, this review covers some of the recent developments and key advantages of humanized mouse models over other conventional transgenic mice platforms. [ABSTRACT FROM AUTHOR]

Published

2021

9. Prediction of human pharmacokinetics for low‐clearance compounds using pharmacokinetic data from chimeric mice with humanized livers

Author

Yuki Doi, Hidetoshi Shimizu, Hidenori Yasuhara, Seigo Sanoh, Tomoko Watanabe, Norihiko Iwazaki, Yaichiro Kotake, Chise Tateno, Yuka Ikenaga, Kosuke Yoshida, and Tomohisa Nakada

Subjects

Metabolic Clearance Rate, Drug Elimination Routes, RM1-950, Pharmacology, General Biochemistry, Genetics and Molecular Biology, Article, Mice, Pharmacokinetics, medicine, Animals, General Pharmacology, Toxicology and Pharmaceutics, Chemistry, Chimera, General Neuroscience, Research, General Medicine, Articles, Metabolic stability, Human hepatocyte, medicine.anatomical_structure, Liver, Pharmaceutical Preparations, Hepatocyte, Models, Animal, Therapeutics. Pharmacology, Public aspects of medicine, RA1-1270, Forecasting

Abstract

Development of low‐clearance (CL) compounds that are slowly metabolized is a major goal in the pharmaceutical industry. However, the pursuit of low intrinsic CL (CLint) often leads to significant challenges in evaluating the pharmacokinetics of such compounds. Although in vitro–in vivo extrapolation is widely used to predict human CL, its application has been limited for low‐CLint compounds because of the low turnover of parent compounds in metabolic stability assays. To address this issue, we focused on chimeric mice with humanized livers (PXB‐mice), which have been increasingly reported to accurately predict human CL in recent years. The predictive accuracy for nine low‐CLint compounds with no significant turnover in a human hepatocyte assay was investigated using PXB‐mouse methods, such as single‐species allometric scaling (PXB‐SSS) approach and a novel physiologically based scaling (PXB‐PBS) approach that assumes that the CLint per hepatocyte is equal between humans and PXB‐mice. The percentages of compounds with predicted CL within 2‐ and 3‐fold ranges of the observed CL for low‐CLint compounds were 89% and 100%, respectively, for both PXB‐SSS and PXB‐PBS approaches. Moreover, the predicted CL was mostly consistent among the methods. Conversely, the percentages of compounds with predicted CL within 2‐ and 3‐fold ranges of the observed CL for low‐CLint compounds were 50% and 63%, respectively, for multispecies allometric (MA) scaling. Overall, these PXB‐mouse methods were much more accurate than conventional MA scaling approaches, suggesting that PXB‐mice are useful tools for predicting the human CL of low‐CLint compounds that are slowly metabolized.

Published

2022

10. Aberrant Hepatic MicroRNA Expression in Nonalcoholic Fatty Liver Disease

Author

Yue Ying Feng, Xiao Qin Xu, Chen Bo Ji, Chun Mei Shi, Xi Rong Guo, and Jun Fen Fu

Subjects

NAFLD, miRNA, Human hepatocyte, HepG2 cells, Deep sequencing, Physiology, QP1-981, Biochemistry, QD415-436

Abstract

Background/Aim: Emerging evidence suggests that microRNA (miRNA) mediated gene regulation influences the maintenance of metabolic homeostasis, particularly the states of obesity and insulin resistance, thereby providing a potential link between miRNAs and nonalcoholic fatty liver disease (NAFLD). Methods: Sprague-Dawley rats fed a high-fat diet (HFD) were used to establish a rat model of NAFLD. The miRNA expression profile of liver tissues was evaluated using Illumina HiSeq deep sequencing. Selected miRNAs were then validated by real-time PCR at both 4- and 12-week time points. Furthermore, the expression levels of these miRNAs were assessed in HepG2 cells and human hepatocytes treated with free fatty acids (FFAs) and proinflammatory factors (tumour necrosis factor-alpha (TNF-α) and interleukin-6 (IL-6). Results: Our results showed that consumption of a HFD for 4 weeks caused simple steatosis, which progressed to steatohepatitis at 12 weeks. miRNA deep sequencing analysis identified 44 known up-regulated miRNAs (fold change >1.5) and 12 down-regulated miRNAs (fold change in vitro and vivo. Interestingly, the expression levels of these six miRNAs were increased in HepG2 cells and human hepatocytes after treatment with FFAs and proinflammatory factors. Conclusion: These findings suggest a critical role for miRNAs in the pathogenesis of NAFLD.

Published

2014

11. In Vitro Metabolism of 25B-NBF, 2-(4-Bromo-2,5-Dimethoxyphenyl)-N-(2-Fluorobenzyl)ethanamine, in Human Hepatocytes Using Liquid Chromatography–Mass Spectrometry

Author

Ju-Hyun Kim, Sunjoo Kim, Jaesin Lee, Sangwhan In, Yong-Yeon Cho, Han Chang Kang, Joo Young Lee, and Hye Suk Lee

Subjects

25B-NBF metabolism, liquid chromatography-high resolution mass spectrometry, human hepatocyte, CYP, UGT, Organic chemistry, QD241-441

Abstract

25B-NBF, 2-(4-bromo-2,5-dimethoxyphenyl)-N-(2-fluorobenzyl)ethanamine, is a new psychoactive substance classified as a phenethylamine. It is a potent agonist of the 5-hydroxytryptamine receptor, but little is known about its metabolism and elimination properties since it was discovered. To aid 25B-NBF abuse screening, the metabolic characteristics of 25B-NBF were investigated in human hepatocytes and human cDNA-expressed cytochrome P450 (CYP) and UDP-glucuronosyltransferase (UGT) enzymes using liquid chromatography⁻high resolution mass spectrometry. At a hepatic extraction ratio of 0.80, 25B-NBF was extensively metabolized into 33 metabolites via hydroxylation, O-demethylation, bis-O-demethylation, N-debenzylation, glucuronidation, sulfation, and acetylation after incubation with pooled human hepatocytes. The metabolism of 25B-NBF was catalyzed by CYP1A1, CYP1A2, CYP2B6, CYP2C9, CYP2C19, CYP2D6, CYP2J2, CYP3A4, and UGT2B7 enzymes. Based on these results, it is necessary to develop a bioanalytical method for the determination of not only 25B-NBF but also its metabolites in biological samples for the screening of 25B-NBF abuse.

Published

2019

12. G protein-coupled receptor GPR35 suppresses lipid accumulation in hepatocytes

Author

Susanna Engberg, Amanda E. Mackenzie, Li-Chiung Lin, Graeme Milligan, Andrew B. Tobin, and Tezz Quon

Subjects

Pharmacology, Lipid accumulation, Chemistry, medicine.disease, Cell biology, Human hepatocyte, medicine.anatomical_structure, Cell culture, Hepatocyte, Nonalcoholic fatty liver disease, medicine, Pharmacology (medical), GPR35, G protein-coupled receptor

Abstract

Although prevalent, nonalcoholic fatty liver disease is not currently treated effectively with medicines. Initially, using wild-type and genome-edited clones of the human hepatocyte cell line HepG2, we show that activation of the orphan G protein-coupled receptor GPR35 is both able and sufficient to block liver X-receptor-mediated lipid accumulation. Studies on hepatocytes isolated from both wild-type and GPR35 knock-out mice were consistent with a similar effect of GPR35 agonists in these cells, but because of marked differences in the pharmacology of GPR35 agonists and antagonists at the mouse and human orthologues, as well as elevated basal lipid levels in hepatocytes from the GPR35 knock-out mice, no definitive conclusion could be reached. To overcome this, we generated and characterized a transgenic knock-in mouse line in which the corresponding human GPR35 splice variant replaced the mouse orthologue. In hepatocytes from these humanized GPR35 mice, activation of this receptor was shown conclusively to prevent, and also reverse, lipid accumulation induced by liver X-receptor stimulation. These studies highlight the potential to target GPR35 in the context of fatty liver diseases.

Published

2021

13. Pyrrolidinyl Synthetic Cathinones α-PHP and 4F-α-PVP Metabolite Profiling Using Human Hepatocyte Incubations

Author

Xingxing Diao, Marilyn A. Huestis, Francesco Paolo Busardò, Raffaele Giorgetti, and Jeremy Carlier

Subjects

musculoskeletal diseases, bath salt, Pyrrolidines, Metabolite, Urine, synthetic cathinone, Hydroxylation, Tandem mass spectrometry, 030226 pharmacology & pharmacy, 01 natural sciences, Article, Catalysis, liquid chromatography–high resolution tandem mass spectrometry, Inorganic Chemistry, lcsh:Chemistry, 03 medical and health sciences, chemistry.chemical_compound, Alkaloids, 0302 clinical medicine, Pharmacokinetics, Tandem Mass Spectrometry, novel psychoactive substance, Humans, Metabolomics, natural sciences, Physical and Theoretical Chemistry, α-PHP, Molecular Biology, lcsh:QH301-705.5, Spectroscopy, Chromatography, Chemistry, 010401 analytical chemistry, Organic Chemistry, hepatocyte metabolism, General Medicine, Metabolism, PV7, 0104 chemical sciences, Computer Science Applications, Human hepatocyte, lcsh:Biology (General), lcsh:QD1-999, Hepatocytes, Microsome, 4F-α-PVP, Oxidation-Reduction, Metabolic Networks and Pathways, Hexanol

Abstract

For more than ten years, new synthetic cathinones (SCs) mimicking the effects of controlled cocaine-like stimulants have flooded the illegal drug market, causing numerous intoxications and fatalities. There are often no data on the pharmacokinetics of these substances when they first emerge onto the market. However, the detection of SC metabolites is often critical in order to prove consumption in clinical and forensic settings. In this research, the metabolite profile of two pyrrolidinyl SCs, &alpha, pyrrolidinohexaphenone (&alpha, PHP) and 4&rsquo, &rsquo, fluoro-&alpha, pyrrolidinovalerophenone (4F-&alpha, PVP), were characterized to identify optimal intake markers. Experiments were conducted using pooled human hepatocyte incubations followed by liquid chromatography&ndash, high-resolution tandem mass spectrometry and data-mining software. We suggest &alpha, PHP dihydroxy-pyrrolidinyl, &alpha, PHP hexanol, &alpha, PHP 2&prime, keto-pyrrolidinyl-hexanol, and &alpha, keto-pyrrolidinyl as markers of &alpha, PHP use, and 4F-&alpha, PVP dihydroxy-pyrrolidinyl, 4F-&alpha, PVP hexanol, 4F-&alpha, PVP 2&prime, keto-pyrrolidinyl-hexanol, and 4F-&alpha, keto-pyrrolidinyl as markers of 4F-&alpha, PVP use. These results represent the first data available on 4F-&alpha, PVP metabolism. The metabolic fate of &alpha, PHP was previously studied using human liver microsomes and urine samples from &alpha, PHP users. We identified an additional major metabolite (&alpha, PHP dihydroxy-pyrrolidinyl) that might be crucial for documenting exposure to &alpha, PHP. Further experiments with suitable analytical standards, which are yet to be synthesized, and authentic specimens should be conducted to confirm these results.

Published

2021

14. Liver-specific cytochrome P450 CYP2C22 is a direct target of retinoic acid and a retinoic acid-metabolizing enzyme in rat liver

Author

Linxi Qian, Reza Zolfaghari, and A. Catharine Ross

Subjects

retinoic acid response element, human hepatocyte, HepG2 cell, retinoic acid oxidation, in situ hybridization, polyunsaturated fatty acid, Biochemistry, QD415-436

Abstract

Several cytochrome P450 (CYP) enzymes catalyze the C4-hydroxylation of retinoic acid (RA), a potent inducer of cell differentiation and an agent in the treatment of several diseases. Here, we have characterized CYP2C22, a member of the rat CYP2C family with homology to human CYP2C8 and CYP2C9. CYP2C22 was expressed nearly exclusively in hepatocytes, where it was one of the more abundant mRNAs transcripts. In H-4-II-E rat hepatoma cells, CYP2C22 mRNA was upregulated by all-trans (at)-RA, and Am580, a nonmetabolizable analog of at-RA. In comparison, in primary human hepatocytes, at-RA increased CYP2C9 but not CYP2C8 mRNA. Analysis of the CYP2C22 promoter region revealed a RA response element (5 ′ -GGTTCA-(n)5-AGGTCA-3 ′) in the distal flanking region, which bound the nuclear hormone receptors RAR and RXR and which was required for transcriptional activation response of this promoter to RA in CYP2C22-luciferase-transfected RA-treated HepG2 cells. The cDNA-expressed CYP2C22 protein metabolized [3H]at-RA to more polar metabolites. While long-chain polyunsaturated fatty acids competed, 9-cis-RA was a stronger competitor. Our studies demonstrate that CYP2C22 is a high-abundance, retinoid-inducible, hepatic P450 with the potential to metabolize at-RA, providing additional insight into the role of the CYP2C gene family in retinoid homeostasis.

Published

2010

15. Elucidating Extracellular Matrix and Stiffness Control of Primary Human Hepatocyte Phenotype Via Cell Microarrays

Author

Aidan Brougham-Cook, Gregory H. Underhill, Chase P. Monckton, Salman R. Khetani, and Kerim B. Kaylan

Subjects

Materials science, Primary (chemistry), biology, Mechanical Engineering, Cell, Cytochrome P450, Stiffness, Phenotype, Article, Cell biology, Extracellular matrix, Human hepatocyte, medicine.anatomical_structure, Mechanics of Materials, biology.protein, medicine, DNA microarray, medicine.symptom

Abstract

How the liver's extracellular matrix (ECM) protein composition and stiffness cooperatively regulate primary human hepatocyte (PHH) phenotype is unelucidated. Here, we utilize protein microarrays and high content imaging with single-cell resolution to assess PHH attachment/functions on 10 major liver ECM proteins in single and two-way combinations robotically spotted onto polyacrylamide gels of 1 kPa or 25 kPa stiffness. Albumin, cytochrome-P450 3A4 (CYP3A4), and hepatocyte nuclear factor alpha (HNF4α) positively correlate with each other and cell density on both stiffnesses. The 25 kPa stiffness supports higher average albumin and HNF4α expression after 14 days, while ECM protein composition significantly modulates PHH functions across both stiffnesses. Unlike previous rodent data, PHH functions are highest only when collagen-IV or fibronectin are mixed with specific proteins, whereas non-collagenous proteins without mixed collagens downregulate functions. Combination of collagen-IV and hyaluronic acid retains high CYP3A4 on 1 kPa, whereas collagens-IV and -V better retain HNF4α on 25 kPa over 14 days. Adapting ECM conditions to 96-well plates containing conjugated hydrogels reveals novel regulation of other functions (urea, CYP1A2/2A6/2C9) and drug-mediated CYP induction by the ECM protein composition/stiffness. This high-throughput pipeline can be adapted to elucidate ECM's role in liver diseases and facilitate optimization of engineered tissues.

Published

2021

16. Survival‐Assured Liver Injury Preconditioning (SALIC) Enables Robust Expansion of Human Hepatocytes in Fah–/–Rag2–/–IL2rg–/– Rats

Author

Dali Li, Zhen Sun, Yun-Wen Zheng, Lijian Hui, Kinji Furuya, Guoyu Pan, Xiaolong Ma, Mei Fang, Zhaoliang Peng, Jianglin Fan, Jian-Yun Ge, Tatsuya Oda, Nobuhiro Ohkohchi, Baihua Wu, L. Zhang, Yanjiao Shao, and Chenhua Wang

Subjects

Hydrolases, General Chemical Engineering, Science, General Physics and Astronomy, Medicine (miscellaneous), Pharmacology, Biology, Biochemistry, Genetics and Molecular Biology (miscellaneous), Transcriptome, bioreactor, Hepatocyte transplantation, Pharmacokinetics, RAG2, medicine, Animals, Humans, General Materials Science, Research Articles, Liver injury, Human liver, liver xeno‐repopulation, General Engineering, Nuclear Proteins, medicine.disease, Rats, Transplantation, DNA-Binding Proteins, Human hepatocyte, Disease Models, Animal, Liver, pharmacological study, humanized liver, Hepatocytes, Research Article, Interleukin Receptor Common gamma Subunit

Abstract

Although liver‐humanized animals are desirable tools for drug development and expansion of human hepatocytes in large quantities, their development is restricted to mice. In animals larger than mice, a precondition for efficient liver humanization remains preliminary because of different xeno‐repopulation kinetics in livers of larger sizes. Since rats are ten times larger than mice and widely used in pharmacological studies, liver‐humanized rats are more preferable. Here, Fah–/–Rag2–/–IL2rg–/– (FRG) rats are generated by CRISPR/Cas9, showing accelerated liver failure and lagged liver xeno‐repopulation compared to FRG mice. A survival‐assured liver injury preconditioning (SALIC) protocol, which consists of retrorsine pretreatment and cycling 2‐(2‐nitro‐4‐trifluoromethylbenzoyl)‐1,3‐cyclohexanedione (NTBC) administration by defined concentrations and time intervals, is developed to reduce the mortality of FRG rats and induce a regenerative microenvironment for xeno‐repopulation. Human hepatocyte repopulation is boosted to 31 ± 4% in rat livers at 7 months after transplantation, equivalent to approximately a 1200‐fold expansion. Human liver features of transcriptome and zonation are reproduced in humanized rats. Remarkably, they provide sufficient samples for the pharmacokinetic profiling of human‐specific metabolites. This model is thus preferred for pharmacological studies and human hepatocyte production. SALIC may also be informative to hepatocyte transplantation in other large‐sized species., Liver‐humanized animals are the state‐of‐the‐art model systems to mimic both physiological and pathological features of human livers. Herein a survival‐assured liver injury preconditioning (SALIC) protocol is developed to stably establish humanized livers in Fah−/−Rag2−/−IL2rg−/− rats. This model is preferred for pharmacological studies and expansion of human hepatocytes. SALIC may also be informative to liver humanization in other large‐sized animals.

Published

2021

17. Rifampin Regulation of Drug Transporters Gene Expression and the Association of MicroRNAs in Human Hepatocytes.

Author

Benson, Eric A., Eadon, Michael T., Desta, Zeruesenay, Yunlong Liu, Hai Lin, Burgess, Kimberly S., Segar, Matthew W., Gaedigk, Andrea, Skaar, Todd C., and Honkakoski, Paavo

Subjects

RIFAMPIN, GENE expression, MICRORNA genetics

Abstract

Membrane drug transporters contribute to the disposition of many drugs. In human liver, drug transport is controlled by two main superfamilies of transporters, the solute carrier transporters (SLC) and the ATP Binding Cassette transporters (ABC). Altered expression of these transporters due to drug-drug interactions can contribute to differences in drug exposure and possibly effect. In this study, we determined the effect of rifampin on gene expression of hundreds of membrane transporters along with all clinically relevant drug transporters. Methods: In this study, primary human hepatocytes (n = 7 donors) were cultured and treated for 24 h with rifampin and vehicle control. RNA was isolated from the hepatocytes, mRNA expression was measured by RNA-seq, and miRNA expression was analyzed by Taqman OpenArray. The effect of rifampin on the expression of selected transporters was also tested in kidney cell lines. The impact of rifampin on the expression of 410 transporter genes from 19 different transporter gene families was compared with vehicle control. Results: Expression patterns of 12 clinically relevant drug transporter genes were changed by rifampin (FDR < 0.05). For example, the expressions of ABCC2, ABCB1, and ABCC3 were increased 1.9-, 1.7-, and 1.2-fold, respectively. The effects of rifampin on four uptake drug transporters (SLCO1B3, SLC47A1, SLC29A1, SLC22A9) were negatively correlated with the rifampin effects on specific microRNA expression (SLCO1 B3/miR-92a, SLC47A1/miR-95, SLC29A1/miR-30d#, and SLC22A9/miR-20; r < -0.79; p < 0.05). Seven hepatic drug transporter genes (SLC22A1, SLC22A5, SLC15A1, SLC29A1, SLCO4C1, ABCC2, and ABCC4), whose expression was altered by rifampin in hepatocytes, were also present in a renal proximal tubular cell line, but in renal cells rifampin did not alter their gene expression. PXR expression was very low in the kidney cells; this may explain why rifampin induces gene expression in a tissue-specific manner. Conclusion: Rifampin alters the expression of many of the clinically relevant hepatic drug transporters, which may provide a rational basis for understanding rifampin-induced drug-drug interactions reported in vivo. The relevance of its effect on many other transporters remains to be studied. [ABSTRACT FROM AUTHOR]

Published

2016

18. Bezafibrate stimulates canalicular localization of NBD-labeled PC in HepG2 cells by PPARα-mediated redistribution of ABCB4

Author

Junichi Shoda, Yoichi Inada, Atsutoshi Tsuji, Hiroshi Kusama, Tetsuya Ueda, Tadashi Ikegami, Hiroshi Suzuki, Yuichi Sugiyama, David E. Cohen, and Naomi Tanaka

Subjects

ATP binding cassette protein B4, human hepatocyte, multidrug-resistance 3 P-glycoprotein, subcellular localization, functional activity, nuclear hormone receptor, Biochemistry, QD415-436

Abstract

Fibrates, including bezafibrate (BF), upregulate the expression of ATP binding cassette protein B4 (ABCB4) through gene transcription in mice. To determine the effects of BF on the expression levels of ABCB4 and on the stimulation of biliary phosphatidylcholine (PC) transport in human HepG2 hepatoblastoma cells, mRNA and protein levels as well as subcellular localization were investigated in the cells treated with BF. The canalicular accumulation of a fluorescent PC was assessed by confocal laser scanning microscopy. Treatment with 300 μmol/l BF for 24 h increased levels of ABCB4 mRNA but not protein by up to 151%. BF caused redistribution of ABCB4 into pseudocanaliculi formed between cells. In association with this redistribution, BF accelerated the accumulation of fluorescent PC in bile canaliculi (up to 163% of that in nontreated cells). Suppression of peroxisome proliferator-activated receptor α (PPARα) expression by either a small interfering RNA duplex or morpholino antisense oligonucleotide attenuated the BF-induced redistribution of ABCB4.These findings suggest that BF may enhance the capacity of human hepatocytes to direct PC into bile canaliculi via PPARα-mediated redistribution of ABCB4 to the canalicular membrane. This provides a rationale for the use of BF to improve cholestasis and/or cholangitis that is attributable to hypofunction of ABCB4.

Published

2004

19. Derivation and applications of human hepatocyte-like cells

Author

Yu-Jie Ding, Shi-Qian Huang, Shuang Li, Qiurong Ding, Danjun Ma, and Yongxu Zhao

Subjects

0301 basic medicine, Histology, Population, Review, Computational biology, Biology, law.invention, 03 medical and health sciences, 0302 clinical medicine, Genome editing, law, Genetics, Human pluripotent stem cells, Induced pluripotent stem cell, education, Molecular Biology, Genetics (clinical), education.field_of_study, Drug discovery, Biomedical application, Bioartificial liver device, Hepatic differentiation, Cell Biology, Transplantation, Human hepatocyte, 030104 developmental biology, 030220 oncology & carcinogenesis, Pharmacogenomics, Hepatocyte-like cells

Abstract

Human hepatocyte-like cells (HLCs) derived from human pluripotent stem cells (hPSCs) promise a valuable source of cells with human genetic background, physiologically relevant liver functions, and unlimited supply. With over 10 years’ efforts in this field, great achievements have been made. HLCs have been successfully derived and applied in disease modeling, toxicity testing and drug discovery. Large cohorts of induced pluripotent stem cells-derived HLCs have been recently applied in studying population genetics and functional outputs of common genetic variants in vitro. This has offered a new paradigm for genome-wide association studies and possibly in vitro pharmacogenomics in the nearly future. However, HLCs have not yet been successfully applied in bioartificial liver devices and have only displayed limited success in cell transplantation. HLCs still have an immature hepatocyte phenotype and exist as a population with great heterogeneity, and HLCs derived from different hPSC lines display variable differentiation efficiency. Therefore, continuous improvement to the quality of HLCs, deeper investigation of relevant biological processes, and proper adaptation of recent advances in cell culture platforms, genome editing technology, and bioengineering systems are required before HLCs can fulfill the needs in basic and translational research. In this review, we summarize the discoveries, achievements, and challenges in the derivation and applications of HLCs.

Published

2019

20. High-throughput retrieval of physical DNA for NGS-identifiable clones in phage display library

Author

Euijin Kwon, Hyunho Lee, Junho Chung, Sang Hyub， Lee, Yushin Jung, Jerome Han, Jaeseong Park, Rae Hyuck Jung, Jinsung Noh, Sunghoon Kwon, Duck Kyun Yoo, Amos Chungwon Lee, Haejun Han, Soohyun Kim, Jung-Eun Kim, Okju Kim, Jaejun Park, Taehoon Ryu, and Sang Il Kim

Subjects

Phage display, Computer science, medicine.drug_class, Phenotypic screening, Immunology, Computational biology, Immunoglobulin light chain, Monoclonal antibody, Avian Proteins, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Report, medicine, Animals, Immunology and Allergy, Bacteriophages, Throughput (business), 030304 developmental biology, Cloning, 0303 health sciences, Human hepatocyte, chemistry, 030220 oncology & carcinogenesis, Cell Surface Display Techniques, Chickens, DNA, Single-Chain Antibodies

Abstract

In antibody discovery, in-depth analysis of an antibody library and high-throughput retrieval of clones in the library are crucial to identifying and exploiting rare clones with different properties. However, existing methods have several technical limitations such as low process throughput from laborious cloning process and waste of the phenotypic screening capacity from unnecessary repetitive tests on the dominant clones. To overcome the limitations, we developed a new high-throughput platform for the identification and retrieval of clones in the library, TrueRepertoire™. TrueRepertoire™ provides highly accurate sequences of the clones with linkage information between heavy and light chains of the antibody fragment. Additionally, the physical DNA of clones can be retrieved in high throughput based on the sequence information. We validated the high accuracy of the sequences and demonstrated that there is no platform-specific bias. Moreover, the applicability of TrueRepertoire™ was demonstrated by a phage-displayed single-chain variable fragment (scFv) library targeting human hepatocyte growth factor (hHGF) protein.

Published

2019

21. Use of Segregated Hepatocyte Scaling Factors and Cross-Species Relationships to Resolve Clearance Dependence in the Prediction of Human Hepatic Clearance

Author

David Hallifax and Houston Jb

Subjects

Datasets as Topic, Pharmaceutical Science, Hepatic clearance, Models, Biological, 030226 pharmacology & pharmacy, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, In vivo, medicine, Animals, Humans, Scaling, Cells, Cultured, Pharmacology, Chemistry, Rats, Hepatobiliary Elimination, Human hepatocyte, Liver metabolism, medicine.anatomical_structure, Liver, Pharmaceutical Preparations, Metabolic enzymes, 030220 oncology & carcinogenesis, In vitro system, Hepatocyte, Models, Animal, Hepatocytes, Microsomes, Liver, Biophysics

Abstract

Human and rat hepatocytes have a strong tendency to underpredict hepatic intrinsic clearance (CLint) and the extent of underprediction increases with increasing observed CLint. In this study, application of the log average rat hepatocyte-rat in vivo empirical scaling factor (ESF) of 4.2 to human hepatocyte prediction successfully removed bias but did not improve precision. An analogous method using individual drug rat ESFs only achieved marginal improvement in accuracy but not precision. A novel approach to resolve clearancedependent prediction, involving rat ESFs calculated for particular (order of magnitude) ranges of observed CLint (log average range, 0.1222.1) improved human prediction precision but only modestly reduced bias. However, rat in vivo CLint was several-fold greater than human in vivo CLint and this was reflected in greater rat hepatocyte and microsome CLint, suggesting that rat metabolic enzymes are more efficient than their human counterparts, by several-fold. By applying the segregated rat ESFs followed by the human/rat CLint ratio, which was consistent regardless of CLint (log average 3.5), both accuracy and precision were improved, providing both a means of mitigating clearance dependence and reaffirming the potential role of rat hepatocytes for prediction of human metabolic CLint. These cross-species observations indicate that underprediction from human in vitro systems may be predominantly consequential of an intrinsic property of the in vitro system rather than individual drug properties.

Published

2019

22. The human hepatocyte TXG-MAPr: WGCNA transcriptomic modules to support mechanism-based risk assessment

Author

Emre Guney, van de Water B, Julio Saez-Rodriguez, Laura I. Furlong, Steven J. Kunnen, Mollon J, den Hollander W, Giulia Callegaro, Janet Piñero Gonzalez, Yue Webster, Panuwat Trairatphisan, James L. Stevens, Solène Grosdidier, Jeffrey J. Sutherland, and Marije Niemeijer

Subjects

Transcriptome, Human hepatocyte, Microarray, Mechanism based, Computational biology, Biology, Toxicogenomics, Risk assessment, Gene, Transcription factor

Abstract

Mechanism-based risk assessment is urged to advance and fully permeate into current safety assessment practices, possibly at early phases of drug safety testing. Toxicogenomics is a promising source of comprehensive and mechanisms-revealing data, but analysis tools to interpret mechanisms of toxicity and specific for the testing systems (e.g. hepatocytes) are lacking. In this study we present the TXG-MAPr webtool (available at https://txg-mapr.eu/WGCNA_PHH/TGGATEs_PHH/), an R-Shiny-based implementation of weighted gene co-expression networks (WGCNA) obtained from the Primary Human Hepatocytes (PHH) TG-GATEs dataset. Gene co-expression networks (modules) were annotated with functional information (pathway enrichment, transcription factor) to reveal their mechanistic interpretation. Several well-known stress response pathways were captured in the modules, are perturbed by specific stressors and show preserved in rat systems (rat primary hepatocytes and rat in vivo liver), highlighting stress responses that translate across species/testing systems. The TXG-MAPr tool was successfully applied to investigate the mechanism of toxicity of TG-GATEs compounds and using external datasets obtained from different hepatocyte cells and microarray platforms. Additionally, we suggest that module responses can be calculated from targeted RNA-seq data therefore imputing biological responses from a limited gene. By analyzing 50 different PHH donors’ responses to a common stressor, tunicamycin, we were able to suggest modules associated with donor’s traits, e.g. pre-existing disease state, therefore connected to donors’ variability. In conclusion, we demonstrated that gene co-expression analysis coupled to an interactive visualization environment, the TXG-MAPr, is a promising approach to achieve mechanistic relevant, cross-species and cross-platform evaluation of toxicogenomic data.

Published

2021

23. MetMax Human Hepatocyte/HEK Cytotoxic Reactive Metabolite Assay as a Potential In Vitro Experimental System for the Identification of DILI Drugs

Author

Albert P. Li and Hong Wei

Subjects

Human hepatocyte, Biochemistry, Chemistry, HEK 293 cells, Reactive metabolite, Genetics, Cytotoxic T cell, Identification (biology), Molecular Biology, In vitro, Biotechnology

Published

2021

24. Primary human hepatocyte gene editing: Prometheus' chains are loosening

Author

Eleftherios Michailidis and Ype P. de Jong

Subjects

Pharmacology, Gene Editing, Primary (chemistry), business.industry, Computational biology, Biology, Liver Regeneration, Human hepatocyte, Text mining, Genome editing, Liver, Drug Discovery, Genetics, Hepatocytes, Molecular Medicine, Humans, Urea, business, Molecular Biology

Published

2021

25. Coculture with hiPS-derived intestinal cells enhanced human hepatocyte functions in a pneumatic-pressure-driven two-organ microphysiological system

Author

Yusuke Kato, Marie Shinohara, Yukio Kato, Tomoki Nakatsuji, Manami Mitsuta, Yuuichi Oda, Takumi Kawanishi, Sylvia Leo, Keita Iino, Hiroshi Arakawa, Hiroshi Kimura, Wataru Nihei, Kenta Shinha, Shoen Kume, Tomomi Goto, Takumi Nishiuchi, Toshiyuki Kanamori, Kosuke Inamura, Nobuaki Shiraki, Masaki Nishikawa, Taku Satoh, Karin Araya, Shinji Sugiura, Kikuo Komori, and Yasuyuki Sakai

Subjects

0301 basic medicine, Drug, media_common.quotation_subject, Science, Induced Pluripotent Stem Cells, Drug Evaluation, Preclinical, 02 engineering and technology, Article, Mice, 03 medical and health sciences, Downregulation and upregulation, In vivo, Lab-On-A-Chip Devices, Pressure, Animals, Humans, Gene, media_common, Multidisciplinary, Chemistry, Biological techniques, Albumin, Metabolism, Microfluidic Analytical Techniques, 021001 nanoscience & nanotechnology, Coculture Techniques, In vitro, Cell biology, Human hepatocyte, 030104 developmental biology, Hepatocytes, Medicine, 0210 nano-technology, Biotechnology

Abstract

Examining intestine–liver interactions is important for achieving the desired physiological drug absorption and metabolism response in in vitro drug tests. Multi-organ microphysiological systems (MPSs) constitute promising tools for evaluating inter-organ interactions in vitro. For coculture on MPSs, normal cells are challenging to use because they require complex maintenance and careful handling. Herein, we demonstrated the potential of coculturing normal cells on MPSs in the evaluation of intestine–liver interactions. To this end, we cocultured human-induced pluripotent stem cell-derived intestinal cells and fresh human hepatocytes which were isolated from PXB mice with medium circulation in a pneumatic-pressure-driven MPS with pipette-friendly liquid-handling options. The cytochrome activity, albumin production, and liver-specific gene expressions in human hepatocytes freshly isolated from a PXB mouse were significantly upregulated via coculture with hiPS-intestinal cells. Our normal cell coculture shows the effects of the interactions between the intestine and liver that may occur in vivo. This study is the first to demonstrate the coculturing of hiPS-intestinal cells and fresh human hepatocytes on an MPS for examining pure inter-organ interactions. Normal-cell coculture using the multi-organ MPS could be pursued to explore unknown physiological mechanisms of inter-organ interactions in vitro and investigate the physiological response of new drugs.

Published

2021

26. Aberrant Hepatic MicroRNA Expression in Nonalcoholic Fatty Liver Disease.

Author

Feng, Yue Ying, Xu, Xiao Qin, Ji, Chen Bo, Shi, Chun Mei, Guo, Xi Rong, and Fu, Jun Fen

Subjects

*MICRORNA, *FATTY liver, *GENETIC regulation, *HOMEOSTASIS, *INSULIN resistance, *INTERLEUKIN-6

Abstract

Background/Aim: Emerging evidence suggests that microRNA (miRNA) mediated gene regulation influences the maintenance of metabolic homeostasis, particularly the states of obesity and insulin resistance, thereby providing a potential link between miRNAs and nonalcoholic fatty liver disease (NAFLD). Methods: Sprague-Dawley rats fed a high-fat diet (HFD) were used to establish a rat model of NAFLD. The miRNA expression profile of liver tissues was evaluated using Illumina HiSeq deep sequencing. Selected miRNAs were then validated by real-time PCR at both 4- and 12-week time points. Furthermore, the expression levels of these miRNAs were assessed in HepG2 cells and human hepatocytes treated with free fatty acids (FFAs) and proinflammatory factors (tumour necrosis factor-alpha (TNF-α) and interleukin-6 (IL-6). Results: Our results showed that consumption of a HFD for 4 weeks caused simple steatosis, which progressed to steatohepatitis at 12 weeks. miRNA deep sequencing analysis identified 44 known up-regulated miRNAs (fold change >1.5) and 12 down-regulated miRNAs (fold change <0.5). Among the abnormally expressed miRNAs, miR-200a, miR-200b, miR-200c, miR-146a, miR-146b and miR-152 were up-regulated both in vitro and vivo. Interestingly, the expression levels of these six miRNAs were increased in HepG2 cells and human hepatocytes after treatment with FFAs and proinflammatory factors. Conclusion: These findings suggest a critical role for miRNAs in the pathogenesis of NAFLD. © 2015 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2014

27. A primary human hepatocyte/hepatic stellate cell co-culture system for improved in vitro HBV replication

Author

Roberto Mateo, Bin Han, Evguenia Svarovskaia, and Hongmei Mo

Subjects

Permissiveness, 0303 health sciences, Hepatitis B virus, Human liver, 030302 biochemistry & molecular biology, Viral antigen, Biology, In Vitro Techniques, Hbv replication, Virus Replication, Virology, In vitro, Coculture Techniques, Culture Media, 03 medical and health sciences, Human hepatocyte, Viral Tropism, Liver, Hepatic stellate cell, Hepatic Stellate Cells, Hepatocytes, Humans, Secretion, 030304 developmental biology

Abstract

Primary human hepatocytes (PHHs) are considered the gold standard for the in vitro study of HBV replication as they directly reflect the metabolism and functionality of the human liver. However, several limitations of this system include PHH donor-to-donor variability, limited life span and low permissiveness to HBV infection, which precludes long-term infection studies and viral passaging. Here, an easy-to-set-up co-culture platform that combines PHH with hepatic stellate cells (HSCs) was developed. This platform does not rely on chemical supplementation to sustain robust HBV replication and viral antigen secretion making it a more physiologically relevant system for in vitro HBV infection studies compared to the traditional short-lived PHH monocultures.

Published

2020

28. Establishment of Humanized Mice for the Study of HBV

Author

Qingfeng Chen, Fritz Lai, and Cherry Yong Yi Wee

Subjects

0301 basic medicine, lcsh:Immunologic diseases. Allergy, HBsAg, Hepatitis B virus, human immune system, chronic inflammation, Immunology, Disease, Review, medicine.disease_cause, Virus, HCC development, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, HBV, Immunology and Allergy, Medicine, Animals, Humans, human hepatocyte, liver fibrosis, business.industry, cccDNA, human liver chimeras, medicine.disease, Hepatitis B, Disease Models, Animal, 030104 developmental biology, humanized mice, Humanized mouse, 030211 gastroenterology & hepatology, business, Viral hepatitis, lcsh:RC581-607

Abstract

Viral hepatitis particularly Hepatitis B Virus (HBV) is still an ongoing health issue worldwide. Despite the vast technological advancements in research and development, only HBV vaccines, typically given during early years, are currently available as a preventive measure against acquiring the disease from a secondary source. In general, HBV can be cleared naturally by the human immune system if detected at low levels early. However, long term circulation of HBV in the peripheral blood may be detrimental to the human liver, specifically targeting human hepatocytes for cccDNA integration which inevitably supports HBV life cycle for the purpose of reinfection in healthy cells. Although there is some success in using nucleoside analogs or polyclonal antibodies targeting HBV surface antigens (HBsAg) in patients with acute or chronic HBV+ (CHB), majority of them would either respond only partially or succumb to the disease entirely unless they undergo liver transplants from a fully matched healthy donor and even so may not necessarily guarantee a 100% chance of survival. Indeed, in vitro/ex vivo cultures and various transgenic animal models have already provided us with a good understanding of HBV but they primarily lack human specificity or virus-host interactions in the presence of human immune surveillance. Therefore, the demand of utilizing humanized mice has increased over the last decade as a pre-clinical platform for investigating human-specific immune responses against HBV as well as identifying potential immunotherapeutic strategies in eradicating the virus. Basically, this review covers some of the recent developments and key advantages of humanized mouse models over other conventional transgenic mice platforms.

Published

2020

29. Human hepatocyte PNPLA3-148M exacerbates rapid non-alcoholic fatty liver disease development in chimeric mice

Author

Chenhui Zou, Brandon S. Razooky, Ype P. de Jong, Lindsey Devisscher, Matteo Tardelli, Hiroshi Suemizu, Mohammad Kabbani, Lander Foquet, William M. Schneider, Meredith E. Pittman, Alison W. Ashbrook, Eleftherios Michailidis, Briana Zeck, Gadi Lalazar, Robert Copenhaver, David E. Cohen, Serkan Belkaya, Inna Ricardo-Lax, Markus Grompe, Luis Chiriboga, Philip Meuleman, Sandra Steensels, Neil D. Theise, Ansgar F. Stenzel, Corrine Quirk, Jérémie Le Pen, Yupu Liang, Charles L. Rice, Joseph M. Luna, Baran A. Ersoy, and Clifton G. Fulmer

Subjects

medicine.medical_specialty, business.industry, Fatty liver, Biology and Life Sciences, Membrane Proteins, Non alcoholic, Disease, Lipase, medicine.disease, General Biochemistry, Genetics and Molecular Biology, Human hepatocyte, Mice, Endocrinology, Non-alcoholic Fatty Liver Disease, Internal medicine, Phospholipases A2, Calcium-Independent, Medicine and Health Sciences, Hepatocytes, Medicine, Animals, Humans, business, Acyltransferases

Abstract

Advanced non-alcoholic fatty liver disease (NAFLD) is a rapidly emerging global health problem associated with pre-disposing genetic polymorphisms, most strikingly an isoleucine to methionine substitution in patatin-like phospholipase domain-containing protein 3 (PNPLA3-I148M). Here, we study how human hepatocytes with PNPLA3 148I and 148M variants engrafted in the livers of chimeric mice respond to hypercaloric diets. As early as 4 weeks, mice developed dyslipidemia, impaired glucose tolerance, and steatohepatitis selectively in the human graft, followed by pericellular fibrosis after 8 weeks of hypercaloric feeding. The PNPLA3 148M variant, either from a homozygous 148M human donor or overexpressed in a homozygous 148I donor background, caused microvesicular and more severe steatosis. In these livers hepatocytes displayed frequent ballooning degeneration, resulting in more active steatohepatitis than in 148I livers. We conclude that PNPLA3 148M in human hepatocytes exacerbates NAFLD. These models will facilitate mechanistic studies into human genetics associated with advanced fatty liver diseases.

Published

2020

30. Development of AAV Variants with Human Hepatocyte Tropism and Neutralizing Antibody Escape Capacity

Author

Timothy C. Nichols, Allene Xing, David A. Gerber, Yasmina L. Abajas, Wuping Li, R. Jude Samulski, Cai-Bin Cui, Wenwei Shao, Chengwen Li, Xiaolei Pei, Xiaojing Chen, Charles Askew, and Elizabeth P. Merricks

Subjects

lcsh:QH426-470, biology, lcsh:Cytology, chimeric mice, viruses, tropism, Mutant, AAV, Virology, Virus, Article, lcsh:Genetics, Transduction (genetics), Capsid, Genetics, Systemic administration, biology.protein, Molecular Medicine, lcsh:QH573-671, Antibody, Nabs, Neutralizing antibody, Molecular Biology, Tropism, human hepatocyte

Abstract

Adeno-associated virus (AAV) vectors have been successfully used in patients with bleeding disorders and blindness. For human liver targeting, two major factors restrict effective AAV transduction after systemic administration of AAV vectors: human hepatocyte tropism and neutralizing antibodies (Nabs). In this study, we attempted to isolate AAV variants with the ability to transduce human hepatocytes and escape Nabs using a directed evolution approach in vivo. After four cycles of selection, 14 AAV capsid mutants were identified from a capsid shuffling library selected in the presence of human Intravenous Immunoglobulin (IVIG) and isolated from human hepatocytes xenografted into chimeric mice. AAV neutralization assays using IVIG showed that most of the mutants showed the Nab escape pattern in a manner similar to that of AAV8 or AAV9 and better than that of other AAV serotypes. Different mutants displayed varying capacities to escape Nab activity from individual serum samples collected from healthy subjects or hemophilia patients. The mutant AAV LP2-10 was found in 12 colonies out of 25, which was composed of capsids from AAV serotypes 2, 6, 8, and 9, with VP3 subunits derived from AAV8 swapped with AAV6 from residues 261 to 272. The mutant AAV LP2-10 manifested a higher ability than that of other serotypes to escape Nabs in IVIG and most human serum samples. After injection of AAV vectors encoding a self-complementary GFP cassette into chimeric mice, LP2-10 transduced human hepatocytes with efficiency similar to that of AAV8. In summary, AAV mutants can be isolated in humanized mice with both human hepatocyte tropism and the ability to evade Nab activity., Graphical Abstract, AAV mutant vectors were identified from a capsid shuffling library selected in the presence of human IVIG and isolated from human hepatocytes xenografted into chimeric mice. LP2-10, whose VP3 subunits were derived from AAV8 and AAV6, manifested the highest ability to escape Nabs in IVIG and most human serum samples.

Published

2020

31. Metabolic profiling of four synthetic stimulants, including the novel indanyl-cathinone 5-PPDi, after human hepatocyte incubation

Author

David Fabregat-Safont, Félix Hernández, Juan V. Sancho, Marie Mardal, Kristian Linnet, and María Ibáñez

Subjects

Cathinone, Metabolite, Pharmaceutical Science, 02 engineering and technology, Pharmacy, Pharmacology, 01 natural sciences, High resolution mass spectrometry, Analytical Chemistry, chemistry.chemical_compound, Hepatocyte incubation, Drug Discovery, Electrochemistry, medicine, Metabolic study, In vitro metabolism, Synthetic cathinones, Health risk, Incubation, Spectroscopy, 5-PPDi, Medical treatment, Chemistry, lcsh:RM1-950, 010401 analytical chemistry, Metabolite identification, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Human hepatocyte, lcsh:Therapeutics. Pharmacology, Original Article, 0210 nano-technology, medicine.drug

Abstract

Synthetic cathinones are new psychoactive substances that represent a health risk worldwide. For most of the 130 reported compounds, information about toxicology and/or metabolism is not available, which hampers their detection (and subsequent medical treatment) in intoxication cases. The principles of forensic analytical chemistry and the use of powerful analytical techniques are indispensable for stablishing the most appropriate biomarkers for these substances. Human metabolic fate of synthetic cathinones can be assessed by the analysis of urine and blood obtained from authentic consumers; however, this type of samples is limited and difficult to access. In this work, the metabolic behaviour of three synthetic cathinones (4-CEC, 4-CPrC and 5-PPDi) and one amphetamine (3-FEA) has been evaluated by incubation with pooled human hepatocytes and metabolite identification has been performed by high-resolution mass spectrometry. This in vitro approach has previously shown its feasibility for obtaining excretory human metabolites. 4-CEC and 3-FEA were not metabolised, and for 4-CPrC only two minor metabolites were obtained. On the contrary, for the recently reported 5-PPDi, twelve phase I metabolites were elucidated. Up to our knowledge, this is the first metabolic study of an indanyl-cathinone. Data reported in this paper will allow the detection of these synthetic stimulants in intoxication cases, and will facilitate future research on the metabolic behaviour of other indanyl-based cathinones., Graphical abstract Image 1, Highlights • In vitro metabolic behaviour of 4-CEC, 4-CPrC, 5-PPDi and 3-FEA has been evaluated. • Metabolite elucidation has been performed by high-resolution mass spectrometry. • 4-CEC and 3-FEA were not metabolised. Two minor metabolites were obtained for 4-CPrC. • Twelve phase I metabolites were elucidated for the indanyl-cathinone 5-PPDi. • Up to our knowledge, this is the first metabolic study of an indanyl-cathinone.

Published

2020

32. Human hepatocyte systems for in vitro toxicology analysis

Author

Sarah Kammerer and Jan-Heiner Küpper

Subjects

0301 basic medicine, 03 medical and health sciences, Human hepatocyte, 030104 developmental biology, Chemistry, In vitro toxicology, Molecular Biology, Applied Microbiology and Biotechnology, Biotechnology, Cell biology

Published

2018

33. Alteration of intracellular secretory acute phase response proteins expressed in human hepatocyte induced by exposure with interleukin-6

Author

Nakata, Katsunori, Saitoh, Ryoichi, Amano, Jun, Koshiyama, Akiyo, Ichibangase, Tomoko, Murao, Naoaki, Ohta, Kunihiro, Aso, Yoshinori, Ishigai, Masaki, and Imai, Kazuhiro

Subjects

*ACUTE phase reaction, *GENE expression, *LIVER cells, *INTERLEUKIN-6, *INFLAMMATION, *DERIVATIZATION, *LIQUID chromatography

Abstract

Abstract: Interleukin-6 (IL-6) is a principal proinflammatory cytokine inducing the acute phase response in various tissues, including liver. Here, we adopt the FD-LC-MS/MS method, consisting of fluorogenic derivatization (FD), separation by liquid chromatography (LC), and identification of proteins by LC-tandem mass spectrometry (MS/MS), to reveal how exposure to IL-6 alters temporally the intracellular secretory acute phase response (sAPR) proteins expressed in human hepatocytes as compared to non-exposure. Nine altered sAPR proteins were identified in cultures in response to IL-6. Seven of them (serum amyloid A protein, haptoglobin, fibrinogen α chain, fibrinogen β chain, fibrinogen γ chain, α1-acid glycoprotein and α1-antitrypsin) were significantly increased and two (β2-glycoprotein 1 and transferrin) were significantly decreased in response to IL-6. In addition, the transmission speed of transferrin might be much faster than the other sAPR proteins. These results suggest a different molecular mechanism for protein synthesis and the secretory pathway among the sAPR proteins. In this study, we observed the simultaneously and temporally altered expression of sAPR proteins which had been induced by exposure to IL-6 in human hepatocytes, in contrast to previous reports, in all of which the proteins were tested from the time they were secreted into the medium from the cells. [Copyright &y& Elsevier]

Published

2012

34. Network-based assessment of the selectivity of metabolic drug targets in Plasmodium falciparum with respect to human liver metabolism.

Author

Bazzani, Susanna, Hoppe, Andreas, and Holzhtter, Hermann-Georg

Subjects

*PLASMODIUM falciparum, *LIVER, *ANTIBIOTICS, *PARASITES, *LIVER cells

Abstract

Background: The search for new drug targets for antibiotics against Plasmodium falciparum, a major cause of human deaths, is a pressing scientific issue, as multiple resistance strains spread rapidly. Metabolic network-based analyses may help to identify those parasite's essential enzymes whose homologous counterparts in the human host cells are either absent, non-essential or relatively less essential. Results: Using the well-curated metabolic networks PlasmoNet of the parasite Plasmodium falciparum and HepatoNet1 of the human hepatocyte, the selectivity of 48 experimental antimalarial drug targets was analyzed. Applying in silico gene deletions, 24 of these drug targets were found to be perfectly selective, in that they were essential for the parasite but non-essential for the human cell. The selectivity of a subset of enzymes, that were essential in both models, was evaluated with the reduced fitness concept. It was, then, possible to quantify the reduction in functional fitness of the two networks under the progressive inhibition of the same enzymatic activity. Overall, this in silico analysis provided a selectivity ranking that was in line with numerous in vivo and in vitro observations. Conclusions: Genome-scale models can be useful to depict and quantify the effects of enzymatic inhibitions on the impaired production of biomass components. From the perspective of a host-pathogen metabolic interaction, an estimation of the drug targets-induced consequences can be beneficial for the development of a selective anti-parasitic drug. [ABSTRACT FROM AUTHOR]

Published

2012

35. Xeno-repopulation of Fah Nod/Scid mice livers by human hepatocytes.

Author

Su, BaoLiang, Liu, ChangCheng, Xiang, Dao, Zhang, HaiBin, Yuan, SiMing, Wang, MinJun, Chen, Fei, Zhu, HaiYing, He, ZhiYing, Wang, Xin, and Hu, YiPing

Abstract

Functional human hepatocytes xenografted into the liver of mice can be used as a model system to study pharmacokinetics, infection of hepatitis viruses, and the efficacy of hepatitis vaccines. Significant levels of liver xeno-repopulation have been reported in Fah Rag2 Il2rg mice. However, the high mortality and low breeding rate of this model may hinder its application. A new model, termed Fah Nod/Scid mice, which combines the advantages of liver repopulation in Fah mice with the ease of xenotransplantation in Nod/Scid mice was obtained by gradual cross-breeding. Fah Nod/Scid mice were easily maintained in breeding colonies and in adult animal care facilities. FK506 treatment combined with gradual withdrawal of NTBC before cell transplantation ensured that Fah Nod/Scid mice were susceptible to liver xeno-repopulation by human hepatocytes; the proportion of engrafted human hepatocytes reached 33.6%. The function of the expanded human hepatocytes within the chimeric liver was confirmed by weight curve analysis, the expression of characteristic proteins, and the biochemical analysis of liver function. These results show that Fah Nod/Scid mice are an ideal humanized liver mouse model with many useful applications. [ABSTRACT FROM AUTHOR]

Published

2011

36. Human Hepatocytes Can Repopulate Mouse Liver: Histopathology of the Liver in Human Hepatocyte-Transplanted Chimeric Mice and Toxicologic Responses to Acetaminophen.

Author

SATO, YASUSHI, YAMADA, HIROSHI, IWASAKI, KAZUHIDE, TATENO, CHISE, YOKOI, TSUYOSHI, YOSHIZATO, KATSUTOSHI, and HORII, IKUO

Subjects

*MICE, *LIVER, *LIVER cells, *BILIARY tract, *FIBRINOLYTIC agents, *CYTOCHROME P-450, *MULTIDRUG resistance, *ACETAMINOPHEN

Abstract

A human hepatocyte-transplanted chimeric mouse has been established by transplantation of human hepatocytes to urokinase-type plasminogen activator transgenic/severe combined immunodeficiency (uPA+/+/SCID) mice. These chimeric mice have various amounts of human hepatocytes that proliferate extensively and progressively replace mouse hepatocytes. In the chimeric liver, hepatic cords and sinusoid-like structures were observed. The human hepatocytes expressed human albumin, human cytochrome P450 enzymes, and human transporter proteins. Furthermore, electron microscopic analysis demonstrated bile canaliculi associated with human hepatocytes in the chimeric mouse livers. These results indicate that the chimeric mouse livers contain functionally intact and differentiated human hepatocytes. Additionally, the toxicologic response of hepatocytes to acetaminophen (APAP) administration was compared in normal and chimeric mouse livers. Following 1,400 mg/kg APAP, mild hepatocellular degeneration was observed in the human hepatocyte areas in the chimeric mice, compared with severe centrilobular hepatocellular necrosis in the ICR mouse livers. In conclusion, these chimeric livers contain functionally differentiated human hepatocytes, and are less susceptible to APAP toxicity, compared to ICR mice. [ABSTRACT FROM AUTHOR]

Published

2008

37. Peroxisomal abnormalities in the immortalized human hepatocyte (IHH) cell line

Author

Hans R. Waterham, Janet Koster, Sacha Ferdinandusse, Femke C. C. Klouwer, Laboratory Genetic Metabolic Diseases, Other departments, Paediatric Metabolic Diseases, and Amsterdam Gastroenterology Endocrinology Metabolism

Subjects

0301 basic medicine, medicine.medical_specialty, Histology, Short Communication, Plasmalogen deficiency, Receptors, Cytoplasmic and Nuclear, Biology, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Peroxisomes, Humans, Molecular Biology, Cells, Cultured, Peroxisomal Targeting Signal 2 Receptor, chemistry.chemical_classification, Immortalized human hepatocyte cell line, Fatty acid, Lipid metabolism, Metabolism, Cell Biology, Hep G2 Cells, Peroxisome, 3. Good health, body regions, Human hepatocyte, Medical Laboratory Technology, 030104 developmental biology, Endocrinology, chemistry, Cell culture, Hepatocytes, Peroxisomal abnormalities, Developmental biology, 030217 neurology & neurosurgery, Lipoprotein

Abstract

The immortalized human hepatocyte (IHH) cell line is increasingly used for studies related to liver metabolism, including hepatic glucose, lipid, lipoprotein and triglyceride metabolism, and the effect of therapeutic interventions. To determine whether the IHH cell line is a good model to investigate hepatic peroxisomal metabolism, we measured several peroxisomal parameters in IHH cells and, for comparison, HepG2 cells and primary skin fibroblasts. This revealed a marked plasmalogen deficiency and a deficient fatty acid α-oxidation in the IHH cells, due to a defect of PEX7, a cytosolic receptor protein required for peroxisomal import of a subset of peroxisomal proteins. These abnormalities have consequences for the lipid homeostasis of these cells and thus should be taken into account for the interpretation of data previously generated by using this cell line and when considering using this cell line for future research.

Published

2017

38. Poly (Ethylene Glycol)-Block-Brush Poly (L-Lysine) Copolymer as an Efficient Nanocarrier for Human Hepatocyte Growth Factor with Enhanced Bioavailability and Anti-Ischemia Reperfusion Injury Efficacy

Author

Fei Tong and Hua Zhang

Subjects

Chemistry, Growth factor, medicine.medical_treatment, Lysine, 030232 urology & nephrology, Ischemia, 02 engineering and technology, General Medicine, Pharmacology, 021001 nanoscience & nanotechnology, medicine.disease, 03 medical and health sciences, Human hepatocyte, chemistry.chemical_compound, 0302 clinical medicine, Biochemistry, Nephrology, medicine, Copolymer, Nanocarriers, 0210 nano-technology, Cardiology and Cardiovascular Medicine, Ethylene glycol, Reperfusion injury

Abstract

Background/Aims: The aim of this study was to assess the effect of human hepatocyte growth factor (hHGF)-loaded poly (ethylene glycol)-b-brush poly (l-lysine) (PEG-b-P(ELG-g-PLL)) copolymer on ischemia/reperfusion (I/R) injury to different organs. Methods: The isoelectric point (pI) of hHGF is 5.5, and hHGF combined with PEG-b-P(ELG-g-PLL) copolymer via electrostatic interactions at pH 7.4. The synthesized PEG-b-P(ELG-g-PLL) copolymer was analyzed using 1H nuclear magnetic resonance (1H NMR) and gel permeation chromatography (GPC). The hHGF/PEG-b-P(ELG-g-PLL) complex was evaluated using a nanoparticle size instrument and transmission electron microscopy (TEM). In addition, vivo performance of hHGF/PEG-b-P(ELG-g-PLL) complex was evaluated using plasma hHGF concentration and different organs ischemia reperfusion injury in rats. Results: An in vitro investigation showed that PEG-b-P(ELG-g-PLL) could serve as a potential hHGF nanocarrier with efficient encapsulation and sustained release. An additional in vivo investigation revealed that the hHGF/PEG-b-P(ELG-g-PLL) complex could prolong increases in plasma hHGF concentration and protect different organs (the brain, heart and kidney) against I/R injury. Conclusion: Poly (ethylene glycol)-block-brush poly (l-lysine) copolymer as an efficient nanocarrier for human hepatocyte growth factor with enhanced bioavailability and anti-ischemia reperfusion injury efficacy.

Published

2017

39. Effect of isoliquiritigenin on viability and differentiated functions of human hepatocytes maintained on PEEK-WC–polyurethane membranes

Author

De Bartolo, Loredana, Morelli, Sabrina, Gallo, Maria Carmela, Campana, Carla, Statti, Giancarlo, Rende, Maria, Salerno, Simona, and Drioli, Enrico

Subjects

*BIOMEDICAL materials, *LIVER cells, *BILIARY tract, *POLYMERS, *NITROGEN excretion

Abstract

Abstract: In this study, we tested the ability of microporous membranes synthesised from a polymeric blend of modified polyetheretherketone (PEEK-WC) and polyurethane (PU) to support long-term maintenance and differentiation of human liver cells. The effect of isoliquiritigenin (ISL), which is a component of liquorice extract, exhibiting growth stimulatory and antiproliferative dose-dependent effect was investigated by comparing cultures treated with ISL with those untreated. To this purpose, flat-sheet membranes were prepared by a blend of PEEK-WC and PU polymers by phase inverse technique. The morphological and physico-chemical properties were characterised, respectively, by scanning electron microscopy and water contact angle measurements. Human hepatocytes cultured on PEEK-WC–PU membranes were constant up to 1 month albumin production and urea synthesis as well as the synthesis of total proteins. The liver-specific functions were expressed at high levels when cells were cultured on membranes with respect to collagen. Also the biotransformation functions were maintained for all culture periods: the ISL elimination rate increased during the culture time and high values were measured up to 22 days. Thereafter, a decrease was observed. ISL stimulated the proliferation of hepatocytes cultured on both substrata but did not affect their liver-specific functions. Hepatocytes cultured on PEEK-WC–PU membranes responded very well to ISL and expressed high levels of P450 cytochrome. These results demonstrated that long-term maintenance of human liver differentiation can be achieved on PEEK-WC–PU membranes. The incubation with ISL at the investigated concentration could stimulate the proliferation of human hepatocytes in biohybrid systems. [Copyright &y& Elsevier]

Published

2005

40. Real-time measurement of cholesterol secreted by human hepatocytes using a novel microfluidic assay

Author

Abhinav Bhushan, Sonali Karnik, Chaeeun Lee, and Andrea Cancino

Subjects

0303 health sciences, Chemistry, Cholesterol, 010401 analytical chemistry, Microfluidics, Polystyrene bead, 01 natural sciences, Article, 0104 chemical sciences, Cell biology, Low volume, 03 medical and health sciences, Human hepatocyte, chemistry.chemical_compound, Cell culture, Function (biology), 030304 developmental biology

Abstract

The use of microfluidics has become widespread in recent years because of the use of lesser resources such as small size, low volume of reagents, and physiological representation of mammalian cells. One of the advantages of microfluidic-based cell culture is the ability to perfuse culture media which tends to improve cellular health and function. Although measurement of cellular function conventionally is carried out using well-plates and plate readers, these approaches are insufficient to carry out in-line analysis of perfused cell cultures because of mismatch between volumes and sensitivity. We report the development of a novel microfluidic device and assay that is carried out under perfusion, in-line to measure the cholesterol secreted from a human hepatocyte tissue-chip. The heart of the assay is the unique implementation of enzymatic chemistry that is carried out on a polystyrene bead. Using this approach, we successfully measured cholesterol secreted by the perfused human hepatocytes.

Published

2019

41. Prediction of Clinical Transporter-Mediated Drug-Drug Interactions via Comeasurement of Pitavastatin and Eltrombopag in Human Hepatocyte Models

Author

Michael J. Chappell, Pradeep Sharma, Bhavik Chouhan, and Simon J. Carter

Subjects

Drug, Adult, Physiologically based pharmacokinetic modelling, RM, media_common.quotation_subject, Dissociation rate, Eltrombopag, Pharmacology, Benzoates, Models, Biological, Article, chemistry.chemical_compound, Pharmacokinetics, medicine, Humans, Pharmacology (medical), Drug Interactions, Pitavastatin, media_common, Research, lcsh:RM1-950, Membrane Transport Proteins, Transporter, Biological Transport, Articles, Human hepatocyte, lcsh:Therapeutics. Pharmacology, Hydrazines, chemistry, Modeling and Simulation, Area Under Curve, Hepatocytes, Quinolines, Pyrazoles, Hydroxymethylglutaryl-CoA Reductase Inhibitors, medicine.drug

Abstract

A structurally identifiable micro‐rate constant mechanistic model was used to describe the interaction between pitavastatin and eltrombopag, with improved goodness‐of‐fit values through comeasurement of pitavastatin and eltrombopag. Transporter association and dissociation rate constants and passive rates out of the cell were similar between pitavastatin and eltrombopag. Translocation into the cell through transporter‐mediated uptake was six times greater for pitavastatin, leading to pronounced inhibition of pitavastatin uptake by eltrombopag. The passive rate into the cell was 91 times smaller for pitavastatin compared with eltrombopag. A semimechanistic physiologically‐based pharmacokinetic (PBPK) model was developed to evaluate the potential for clinical drug–drug interactions (DDIs). The PBPK model predicted a twofold increase in the pitavastatin peak blood concentration and area under the concentration‐time curve in the presence of eltrombopag in simulated healthy volunteers. The use of structural identifiability supporting experimental design combined with robust micro‐rate constant parameter estimates and a semimechanistic PBPK model gave more informed predictions of transporter‐mediated DDIs.\ud \ud

Published

2019

42. Interlaboratory Variability in Human Hepatocyte Intrinsic Clearance Values and Trends with Physicochemical Properties

Author

Leslie Z. Benet and Christine M. Bowman

Subjects

Chemical Phenomena, Databases, Pharmaceutical, Metabolic Clearance Rate, Pharmacology toxicology, Pharmaceutical Science, 030226 pharmacology & pharmacy, Models, Biological, Article, Databases, 03 medical and health sciences, 0302 clinical medicine, Models, In vivo, Microsomes, Humans, Pharmacology (medical), Pharmacokinetics, Pharmacology & Pharmacy, in vitro-in vivo extrapolation, intrinsic clearance, 030304 developmental biology, Pharmacology, 0303 health sciences, variability, Chemistry, Organic Chemistry, Computational Biology, Pharmacology and Pharmaceutical Sciences, Biological, Human hepatocyte, Liver, Pharmaceutical Preparations, Pharmaceutical, Lipophilicity, Hepatocytes, Microsomes, Liver, Molecular Medicine, Generic health relevance, Biological system, Biotechnology, Protein Binding

Abstract

PURPOSE: To examine the interlaboratory variability in CL(int) values generated with human hepatocytes and determine trends in variability and clearance prediction accuracy using physicochemical and pharmacokinetic parameters. METHODS: Data for 50 compounds from 14 papers were compiled with physicochemical and pharmacokinetic parameter values taken from various sources. RESULTS: Coefficients of variation were as high as 99.8% for individual compounds and variation was not dependent on the number of prediction values included in the analysis. When examining median values, it appeared that compounds with a lower number of rotatable bonds had more variability. When examining prediction uniformity, those compounds with uniform in vivo underpredictions had higher CL(int,) in vivo values, while those with non-uniform predictions typically had lower CL(int,) in vivo values. Of the compounds with uniform predictions, only a small number were uniformly predicted accurately. Based on this limited dataset, less lipophilic, lower intrinsic clearance, and lower protein binding compounds yield more accurate clearance predictions. CONCLUSIONS: Caution should be taken when compiling in vitro CL(int) values from different laboratories as variations in experimental procedures (such as extent of shaking during incubation) may yield different predictions for the same compound. The majority of compounds with uniform in vitro values had predictions that were inaccurate, emphasizing the need for a better mechanistic understanding of IVIVE. The non-uniform predictions, often with low turnover compounds, reaffirmed the experimental challenges for drugs in this clearance range. Separating new chemical entities by lipophilicity, intrinsic clearance, and protein binding may help instill more confidence in IVIVE predictions.

Published

2019

43. In Vitro Metabolism of 25B-NBF, 2-(4-Bromo-2,5-Dimethoxyphenyl)-N-(2-Fluorobenzyl)ethanamine, in Human Hepatocytes Using Liquid Chromatography–Mass Spectrometry

Author

Joo Young Lee, Jaesin Lee, Han Chang Kang, Hye Suk Lee, Yong-Yeon Cho, Sangwhan In, Ju-Hyun Kim, and Sunjoo Kim

Subjects

Phenethylamine, CYP2B6, Glucuronidation, 25B-NBF metabolism, Pharmaceutical Science, liquid chromatography-high resolution mass spectrometry, 01 natural sciences, Analytical Chemistry, Hydroxylation, lcsh:QD241-441, 03 medical and health sciences, chemistry.chemical_compound, Sulfation, lcsh:Organic chemistry, Liquid chromatography–mass spectrometry, CYP, Drug Discovery, Physical and Theoretical Chemistry, human hepatocyte, 030304 developmental biology, 0303 health sciences, biology, 010401 analytical chemistry, Organic Chemistry, CYP1A2, Cytochrome P450, 0104 chemical sciences, chemistry, Biochemistry, Chemistry (miscellaneous), biology.protein, Molecular Medicine, UGT

Abstract

25B-NBF, 2-(4-bromo-2,5-dimethoxyphenyl)-N-(2-fluorobenzyl)ethanamine, is a new psychoactive substance classified as a phenethylamine. It is a potent agonist of the 5-hydroxytryptamine receptor, but little is known about its metabolism and elimination properties since it was discovered. To aid 25B-NBF abuse screening, the metabolic characteristics of 25B-NBF were investigated in human hepatocytes and human cDNA-expressed cytochrome P450 (CYP) and UDP-glucuronosyltransferase (UGT) enzymes using liquid chromatography&ndash, high resolution mass spectrometry. At a hepatic extraction ratio of 0.80, 25B-NBF was extensively metabolized into 33 metabolites via hydroxylation, O-demethylation, bis-O-demethylation, N-debenzylation, glucuronidation, sulfation, and acetylation after incubation with pooled human hepatocytes. The metabolism of 25B-NBF was catalyzed by CYP1A1, CYP1A2, CYP2B6, CYP2C9, CYP2C19, CYP2D6, CYP2J2, CYP3A4, and UGT2B7 enzymes. Based on these results, it is necessary to develop a bioanalytical method for the determination of not only 25B-NBF but also its metabolites in biological samples for the screening of 25B-NBF abuse.

Published

2019

44. Mosquito and human hepatocyte infections with Plasmodium ovale curtisi and Plasmodium ovale wallikeri

Author

Mojca Kristan, Julius C. R. Hafalla, Colin J. Sutherland, Mary C. Oguike, and Samuel G. Thorburn

Subjects

0301 basic medicine, 030231 tropical medicine, Plasmodium ovale, Prevalence, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Sibling species, parasitic diseases, Anopheles, medicine, Parasite hosting, Animals, Humans, Life Cycle Stages, biology, Transmission (medicine), Public Health, Environmental and Occupational Health, General Medicine, DNA, Protozoan, biology.organism_classification, medicine.disease, Virology, Malaria, Human hepatocyte, 030104 developmental biology, Infectious Diseases, Molecular Diagnostic Techniques, Sporozoites, Hepatocytes, Parasitology, Female, Nucleic Acid Amplification Techniques

Abstract

Background Human ovale malaria is caused by the two closely related species, Plasmodium ovale curtisi and P. ovale wallikeri. Both species are known to relapse from quiescent hepatic forms months or years after the primary infection occurred. Although some studies have succeeded in establishing mosquito transmission for ovale malaria, none have specifically described transmission and human hepatocyte infection of both sibling species. Methods Here we describe a simplified protocol for successful transmission of both P. ovale curtisi and P. ovale wallikeri to Anopheles coluzzii mosquitoes and streamlined monitoring of infection using sensitive parasite DNA detection, by loop-activated amplification, in blood-fed mosquitoes. Results In one experimental infection with P. ovale curtisi and one with P. ovale wallikeri, viable sporozoites were isolated from mosquito salivary glands and used to successfully infect cultured human hepatocytes. Conclusions This protocol provides a method for the utilisation of pretreatment clinical blood samples from ovale malaria patients, collected in EDTA, for mosquito infection studies and generation of the hepatic life cycle stages of P. ovale curtisi and P. ovale wallikeri. We also demonstrate the utility of loop-activated amplification as a rapid and sensitive alternative to dissection for estimating the prevalence of infection in Anopheles mosquitoes fed with Plasmodium-infected blood.

Published

2019

45. Improving post-thaw outcomes in primary human hepatocyte cryopreservation

Author

P. Kilbride, R. Kaiser, J.B. Lillegard, J. Hench, M. Hammerman, and J. Meneghel

Subjects

Cancer Research, Transplantation, Primary (chemistry), business.industry, Immunology, Cell Biology, Cryopreservation, Andrology, Human hepatocyte, Oncology, Immunology and Allergy, Medicine, business, Genetics (clinical)

Published

2021

46. Determination of Human Hepatocyte Intrinsic Clearance for Slowly Metabolized Compounds: Comparison of a Primary Hepatocyte/Stromal Cell Co-culture with Plated Primary Hepatocytes and HepaRG

Author

Annika Janefeldt, Petter Svanberg, Ia Hultman, Ken Grime, and Britta Bonn

Subjects

Male, Stromal cell, Metabolic Clearance Rate, Pharmaceutical Science, Biology, 030226 pharmacology & pharmacy, Incubation period, 03 medical and health sciences, 0302 clinical medicine, In vivo, Metabolic clearance rate, medicine, Humans, Pharmacology, INT, Molecular biology, Coculture Techniques, Human hepatocyte, medicine.anatomical_structure, Pharmaceutical Preparations, 030220 oncology & carcinogenesis, Hepatocyte, Immunology, Hepatocytes, Coculture Technique, Female, Stromal Cells

Abstract

A key requirement in drug discovery is to accurately define intrinsic clearance (CL(int)) values of less than 1 µl/min/10(6) hepatocytes, which requires assays that allow for longer incubation time as a complement to suspended hepatocytes. This study assessed the effectiveness of plated HepaRG cells, plated primary human hepatocytes (PHHs), and the HµREL human hepatocyte/stromal cell co-cultures for determination of low CL(int) values. The investigation demonstrated that the systems were capable of providing statistically significant CL(int) estimations down to 0.2 µl/min/10(6) cells. The HµREL assay provided a higher level of reproducibility, with repeat significant CL(int) values being defined in a minimum of triplicate consecutive assays for six of seven of the low CL(int) compounds compared with four of seven for PHHs and two of seven for HepaRG. The assays were also compared with a suspension assay using drugs with higher CL(int) values and diverse enzymology. The CL(int) values from the PHH and HµREL assays were similar to those defined by a hepatocyte suspension assay, indicating that they can be used interchangeably alongside a standard assay. Finally, data from these two assays could also predict in vivo hepatic metabolic CL(int) to within 3-fold for greater than 70% of the compounds tested, with average fold errors (AFE) of 1.6 and 2.3, respectively, whereas the HepaRG data were predictive to within 3-fold for only 50% of compounds (AFE 2.9). In summary, all systems have utility for low CL(int) determination, but the HµREL co-culture appears slightly superior regarding overall assay performance.

Published

2016

47. Opportunities and challenges in using human hepatocytes in cytochromes P450 induction assays

Author

Zdenek Dvorak

Subjects

0301 basic medicine, Drug, P450 induction, media_common.quotation_subject, Induced Pluripotent Stem Cells, Drug Evaluation, Preclinical, Gene induction, Computational biology, Biology, Pharmacology, Toxicology, 030226 pharmacology & pharmacy, Cell Line, Xenobiotics, 03 medical and health sciences, 0302 clinical medicine, Cytochrome P-450 Enzyme System, Cytochrome P-450 Enzyme Inducers, Animals, Humans, Drug Interactions, Cells, Cultured, media_common, General Medicine, Drug metabolizing enzymes, Human hepatocyte, 030104 developmental biology, Cell culture, Preclinical testing, Drug Design, Hepatocytes

Abstract

Introduction: Identification of inducers of xenobiotic-metabolizing cytochromes P450 (CYP) is of topical interest. The issue mainly concerns three sectors: (i) preclinical testing of drug candidates and testing existing drugs and their combinations; (ii) food safety applications with regard to additives, contaminants, and adulterants; (iii) environmental applications, comprising detection and identification of endocrine disruptors. Areas covered: A literature search was performed using the PubMed database, covering state-of-the-art of human hepatocyte (HH) culture use, and their exploitation for the identification of P450 inducers. A list of CYP inducers identified by HHs is provided. Expert opinion: Primary cultures of HHs had long been considered as a gold standard for induction assays of xenobiotic-metabolizing enzymes. Owing to several shortcomings of HHs, alternative approaches such as immortalization of HHs, use of cell lines, generation of clonal cell lines from HHs, use of induced pluripotent stem (iPS) cells, cells from humanized animals, etc., were employed. While yielding particular advantage, overall, alternatives to HHs still remain an avenue for discrete applications or technical situations. Thus, HHs remain the most suitable model for complex CYP induction studies. The summary may be effectively expressed by strength/weakness/opportunity/threats analysis.

Published

2016

48. P112 - Primary human hepatocyte 3D spheroids for studying hepatic function and drug metabolism

Author

Kate Comstock, Deborah Tieberg, Sujoy Lahiri, David Kuninger, Julia Tritapoe, and Theresa Nguyen

Subjects

Pharmacology, Hepatic function, Human hepatocyte, Primary (chemistry), Chemistry, Spheroid, Cancer research, Pharmaceutical Science, Pharmacology (medical), Drug metabolism

Published

2020

49. P5 - Use of the HμREL® human hepatocyte co-culture model to determine intrinsic clearance and elucidate metabolic pathways of stable compounds

Author

Lara Ward, Marks Vahmjanins, Anna Kerins, Philip Butler, Jo Wilcock, and Katie Paine

Subjects

Pharmacology, Metabolic pathway, Human hepatocyte, Chemistry, Pharmaceutical Science, Pharmacology (medical), Cell biology

Published

2020

50. Long-Term Culture of Hepatocytes from Human Adults.

Author

Hui-Ling Chen, Robert K., Hui-Lin Wu, Robert K., Chun-Chun Fon, Robert K., Pei-Jer Chen, Ming-Yang Lai, and Ding-Shinn Chen

Subjects

*LIVER cells, *ALBUMINS, *ALPHA fetoproteins, *BLOOD proteins, *GLOBULINS, *TRANSFERRIN

Abstract

A long-term primary human hepatocyte culture retraining liver-specific functions is important and essential for basic research and for the future development of hepatocyte-based applications. We established a normal hepatocyte culture system from excess normal tissues obtained from adult liver cancer patients who received partial liver resection. Hepatocytes were isolated after perfusion and enzymatic disaggregation, and were first maintained in hormonally defined media on a Matrigel matrix, and then transferred to collagen sandwich gel. The hepatocytes formed clusters on the Matrigel matrix and increased in size and numbers with time of culture and eventually grew into spheroids of variable sizes. After being transferred to collagen gel, the cells migrated outward from spheroids to form a monolayer with cuboidal or polygonal cell shapes with granular cytoplasm and continued to proliferate. Cellular functions specific for hepatocytes were analyzed using immunoblot assay for proteins specifically secreted by the liver cells on different days of culture. The cells secreted albumin, transferrin and α-fetoprotein consistently for more than 100 days, to a maximum of 150 days. Thus, we have established a long-term culture of hepatocytes from human adults, which will be useful for basic studies of liver physiology such as metabolism and morphogenesis, as well as for other applications in the study of infectious hepatitis, pharmacology, pharmacokinetics, and toxicology. [ABSTRACT FROM AUTHOR]

Published

1998