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2. Cellular distribution and handling of liver-targeting preparations in human livers studied by a liver lobe perfusion

Author

Melgert, BN, Olinga, P, Weert, B, Slooff, MJH, Meijer, DKF, Poelstra, K, Groothuis, GMM, Groningen University Institute for Drug Exploration (GUIDE), Nanomedicine & Drug Targeting, Nanotechnology and Biophysics in Medicine (NANOBIOMED), Biopharmaceuticals, Discovery, Design and Delivery (BDDD), Groningen Research Institute for Asthma and COPD (GRIAC), and Groningen Institute for Organ Transplantation (GIOT)

Subjects
SLICES, HUMAN HEPATOCYTES, TRANSPLANTATION, ENDOCYTOSIS, INVIVO, RAT-LIVER, DRUGS, ALBUMIN, ENDOTHELIAL-CELLS, CIRRHOSIS
Abstract

We developed and tested a novel method for perfusing parts of human liver to study uptake and handling of drug-targeting preparations. These preparations, designed for the treatment of liver fibrosis in man, have been extensively studied in animals, but little is known about the uptake and handling by human livers. Human liver tissue was obtained from livers procured from multiorgan donors and from cirrhotic livers of patients. To assess tissue viability, perfusate glutamate-oxalacetate-transaminase (GOT), glutamate-pyruvate-transaminase (GPT), and lactate dehydrogenase (LDH) levels were determined. To assess tissue functionality, the uptake of taurocholic acid and phase I and II metabolism of lidocaine and 7-hydroxycoumarin were determined. Uptake of a drug-targeting preparation was studied with Dexa(10)-HSA, which is designed for targeting of dexamethasone to nonparenchymal cells in the liver. During a 90-min perfusion period, no elevation of either GOT, GPT, or LDH was found. Both healthy control livers and cirrhotic livers showed phase I and II drug metabolism and functional taurocholic acid uptake. Studies with Dexa(10)-HSA revealed that 60 min after administration, 40% of the dose had been taken up by control livers and only 5% by cirrhotic livers. In control livers, Kupffer and endothelial cells had taken up Dexa(10)-HSA, whereas in cirrhotic livers only Kupffer cells were responsible for the uptake. Viability parameters and liver function tests clearly showed the applicability of this method. In the perfusion set-up, we showed uptake of the drug-targeting preparation Dexa(10)-HSA by healthy and cirrhotic human liver tissue, although the distribution patterns differed. This demonstrates the need to study new concepts in (diseased) human tissue.

Published
2001

3. The applicability of rat and human liver slices to the study of mechanisms of hepatic drug uptake

Author

Olinga, P, Hof, IH, Smit, M, de Jager, MH, Swart, PJ, Slooff, MJH, Meijer, DKF, Groothuis, GMM, Merema, M.T., Groningen University Institute for Drug Exploration (GUIDE), Nanomedicine & Drug Targeting, Biopharmaceuticals, Discovery, Design and Delivery (BDDD), and Groningen Institute for Organ Transplantation (GIOT)

Subjects
ALBUMINS, lucigenin, HUMAN HEPATOCYTES, modified albumins, digoxin, VIABILITY, TRANSPORT, rhodamine B, BILE-ACID, SERUM
Abstract

In the present study we investigated the applicability of the liver slice model to study mechanisms of drug uptake. Four model compounds were investigated that enter hepatocytes via entirely different membrane transport mechanisms. Rhodamine B (RB), which enters hepatocytes by passive diffusion, was homogeneously distributed throughout the rat liver slice (250 mum thickness) within 5 min, indicating that the penetration rate into the slice and the diffusion rate into the cells are rapid. In contrast, lucigenin (LU), which is taken up by hepatocytes through adsorptive endocytosis, was detected in the inner cell layers after 15 min. Digoxin uptake into the slice showed a temperature-dependent component and was stereos electively inhibited by quinine, which is compatible with the involvement of a carrier-mediated uptake mechanism. The neo-glycoalbumin Lactose(27)-Human Serum Albumin (Lact(27)-HSA) and the negatively charged Succinylated-Human Serum Albumin (Suc-HSA) entered the slices and were taken up temperature-dependently into hepatocytes and endothelial cells, respectively. The liver slice preparation is a valuable tool to investigate the mechanisms of cellular uptake of drugs. Moreover, the precision-cut liver slices offer the unique possibility to study both hepatocyte and endothelial cell function in human and rat liver. (C) 2001 Elsevier Science Inc. All rights reserved.

Published
2001

4. The capability of isolated hepatocytes and liver slices of donor livers to predict graft function after liver transplantation

Author

Olinga, P, Maring, JK, Hof, IH, Slooff, MJH, Meijer, DKF, Groothuis, GMM, Merema, M.T., Groningen University Institute for Drug Exploration (GUIDE), Nanomedicine & Drug Targeting, Biopharmaceuticals, Discovery, Design and Delivery (BDDD), and Groningen Institute for Organ Transplantation (GIOT)

Subjects
drug transport, surgical procedures, operative, viability, ACID, graft function, human hepatocytes, RISK-FACTORS, SELECTION CRITERIA, REPERFUSION, PRESERVATION, liver slices, drug metabolism
Abstract

Aims/Background: In liver transplantation, adequate function tests for donor livers and transplanted livers are of utmost importance to provide an objective basis for decision-making. Isolated hepatocyte and/or slice preparations from human donor liver tissue may be suitable to test the quality of the organ to be transplanted. Methods: Surgical waste material remaining after reduced size or split liver transplantation in children was used to prepare slices and isolated hepatocytes. The viability of these preparations as well as drug transport and metabolism functions were determined and related to graft function in 32 liver recipients. Results: The in vitro tests used in the present study apparently did not select non-viable livers. In vitro preparations of the primary non-function grafts which occurred in the investigated group showed normal viability, metabolic and uptake function. Conclusion: These results indicate that either the presently used viability tests are not sensitive enough to detect potential organ failure or that other factors besides the hepatocyte viability at the time of transplantation are of paramount importance to the graft function of the recipient, such as complications during and after transplantation or the viability of the non-parenchymal cells.

Published
2000

5. Excretion balance and metabolism of the progestagen Org 30659 in healthy postmenopausal women

Author

Verhoeven, CHJ, Gloudemans, RHM, Groothuis, GMM, Rietjens, IMCM, Vos, RME, Groningen University Institute for Drug Exploration (GUIDE), Nanomedicine & Drug Targeting, and Biopharmaceuticals, Discovery, Design and Delivery (BDDD)

Subjects
HUMAN LIVER, STEROIDS, IN-VITRO
Abstract

Metabolism of Org 30659 ((17 alpha)-17-hydroxy-11-methylene-19-norpregna-4,15-dien-20-yn-3-one), a new potent progestagen currently under clinical development by NV Organon for use in oral contraception and hormone replacement therapy was studied in vivo after oral administration to healthy postmenopausal women. After oral administration of [C-14]-Org 30659 to postmenopausal women, the compound was extensively metabolized. The dosed radioactivity was predominantly excreted via urine. Org 30659 was to a large extent metabolized at the C3- and the C17-positions. Phase II metabolism, and in particular conjugation with glucuronic acid at the 17 beta-hydroxy group, is the major metabolic route for Org 30659 in vivo. Not only phase II metabolism was observed for Org 30659 after oral administration to postmenopausal volunteers, but also metabolism in the A-ring occurred, especially reduction of the 3-keto-Delta(4) moiety to give 3 alpha-hydroxy, 5 alpha(beta)-dihydro and 3 beta-hydroxy, 5 alpha-dihydro derivatives. Oxidative metabolism (6 beta-hydroxylation) observed in human liver preparations in vitro, was not observed to a significant extent in vivo. So, in vitro human metabolism is different from the in vivo metabolism, indicating that the in vitro-in vivo extrapolation is far from straightforward, at least when only liver preparations are used. The proper choice of the in vitro system (e.g., microsomes, hepatocytes, slices or individually expressed enzymes) and the substrate concentration can be very important determinative factors for the predictability of the in vitro system for the in vivo situation. Species comparison of the metabolic routes of Org 30659 after oral administration indicated that the monkey seems to be a better representative species than the rat for the metabolism of Org 30659 in humans. (C) 2000 Elsevier Science Ltd. All rights reserved.

Published
2000

6. In vitro and in vivo metabolism of the progestagen Org 30659 in several species

Author

Verhoeven, CHJ, Krebbers, SFM, Wagenaars, GN, Bogy, CJ, Groothuis, GMM, Olinga, P, Vos, RME, Groningen University Institute for Drug Exploration (GUIDE), Nanomedicine & Drug Targeting, Biopharmaceuticals, Discovery, Design and Delivery (BDDD), and Groningen Institute for Organ Transplantation (GIOT)

Subjects
ENZYME, OXIDATION
Abstract

The metabolism of Org 30659 [(17 alpha)-17-hydroxy-11-methylene-19-norpregna-4,15-dien-20-yn-3-one], a new potent progestagen currently under clinical development by NV Organon for use in oral contraceptive and hormone replacement therapy, was studied in vivo after oral administration to rats and monkeys and in vitro using rat, rabbit, monkey, and human liver microsomes and rat and human hepatocytes. After oral administration of [7-H-3]Org 30659 to rats and monkeys, Org 30659 was extensively metabolized in both species. Fecal excretion appeared to be the main route of elimination. In rats, opening of the A-ring, resulting in a 2-OH,4-carboxylic acid, 5 alpha-H metabolite of Org 30659, was the major metabolic route in vivo. Other metabolic routes involved the introduction of an OH group at C15 beta, followed by a shift of the Delta(15)-double bond to a 16/17-double bond with subsequent removal of the OH group at C17 and reduction of the 3-keto,Delta(4) moiety followed by sulfate conjugation of the 3-OH substituent. These metabolic routes observed in vivo were also major routes in incubations with rat hepatocytes. In rat liver microsomes, Org 30659 was metabolized by reduction of the 3-keto,Delta(4) moiety. Rat hepatocyte incubations with Org 30659 were more representative of the in vivo metabolism of Org 30659, compared with rat microsomal incubations. Both in vitro and in vivo, the majority of the metabolites were 3 alpha-OH,4,5 alpha-dihydro derivatives. In monkeys, Org 30659 was mainly metabolized at the C3- and C17-positions in vivo. The 3-keto moiety was reduced to both 3 beta-OH and 3 alpha-OH substituents. In addition to phase I metabolites, glucuronic acid conjugates were observed in vivo. In monkey liver microsomes, the 6 beta-OH metabolite of Org 30659 was the major metabolite present. Similar to the monkey liver microsomes, rabbit and human liver microsomes converted Org 30659 to the 6 beta-OH metabolite. This metabolite was also the major metabolite in incubations with human hepatocytes.

Published
1998

7. METABOLISM OF 3 PHARMACOLOGICALLY ACTIVE-DRUGS IN ISOLATED HUMAN AND RAT HEPATOCYTES - ANALYSIS OF INTERSPECIES VARIABILITY AND COMPARISON WITH METABOLISM IN-VIVO

Author

SANDKER, GW, VOS, RME, DELBRESSINE, LPC, SLOOFF, MJH, MEIJER, DKF, GROOTHUIS, GMM, Groningen Research Institute of Pharmacy, and Biopharmaceuticals, Discovery, Design and Delivery (BDDD)

Subjects
MODEL, RABBIT, INVIVO, DOG, PATHWAYS, CULTURED-HEPATOCYTES, DIAZEPAM, VIABILITY
Abstract

1. The metabolism of the three drugs (Org GB 94, Org 3770 and Org OD 14) was studied in isolated human and rat hepatocytes. The metabolic profiles in rat and human hepatocytes were compared with the available in vivo data in both species. 2. All three drugs were metabolized extensively under the conditions used, both in human and rat hepatocytes, showing both extensive phase I and II metabolism. 3. During 3-h incubation with rat hepatocytes the three compounds were metabolized completely, whereas incubation with human hepatocytes only resulted in partial metabolism, amounting for 58% (Org GB 94), 36% (Org 3770) and 94% (Org OD 14) of the dose. In addition, rat hepatocytes excreted relatively more of the formed metabolites than human hepatocytes. 4. For both species, the metabolites formed in the isolated cells were quite similar to those found in vivo. With respect to Org GB 94 and Org 3770, metabolites were detected in man in vivo and in isolated human hepatocytes that were not found in any of the animal species studied previously. 5. The reflection of interspecies differences in isolated hepatocytes, with respect to both metabolite profiles and human-specific metabolites, renders isolated human hepatocytes a very valuable tool during preclinical drug development.

Published
1994

8. USE OF HUMAN LIVER SLICES AND HEPATOCYTES IN METABOLISM

Author

OLINGA, P, MEIJER, DKF, SLOOFF, MJH, GROOTHUIS, GMM, Merema, M.T., Crommelin, D, Couvreur, P, Duchene, D, Nanomedicine & Drug Targeting, Biopharmaceuticals, Discovery, Design and Delivery (BDDD), and Groningen Institute for Organ Transplantation (GIOT)

Published
1994

10. HUMAN HEPATOCYTES AS A TOOL TO STUDY HEPATIC DRUG TRANSPORT IN MAN

Author

GROOTHUIS, GMM, OLINGA, P, SANDKER, GW, SLOOFF, MJH, MEIJER, DKF, Merema, M.T., Crommelin, D, Couvreur, P, Duchene, D, Nanomedicine & Drug Targeting, Biopharmaceuticals, Discovery, Design and Delivery (BDDD), and Groningen Institute for Organ Transplantation (GIOT)

Published
1994

11. MAINTENANCE OF VIABILITY AND TRANSPORT FUNCTION AFTER PRESERVATION OF ISOLATED RAT HEPATOCYTES IN VARIOUS SIMPLIFIED UNIVERSITY-OF-WISCONSIN SOLUTIONS

Author

SANDKER, GW, WEERT, B, KUIPERS, W, SLOOFF, MJH, MEIJER, DKF, GROOTHUIS, GMM, Merema, M.T., and Biopharmaceuticals, Discovery, Design and Delivery (BDDD)

Subjects
KIDNEY-PRESERVATION, CANINE LIVER, HYPOTHERMIC PRESERVATION, EURO-COLLINS, HYDROXYETHYL STARCH, LIVER PRESERVATION, METABOLIC FUNCTION, SIMPLE COLD-STORAGE, CELL VIABILITY, UW-SOLUTION
Abstract

Rat hepatocytes were preserved for 24hr with high recovery and good maintenance of viability and transport function both in University of Wisconsin (UW) solution and in various simplified UW solutions. Cell quality is somewhat affected after 48 hr of preservation in both the original UW solution and the simplified solutions. ATP content and uptake rate of taurocholic acid are more sensitive markers of cell viability than Trypan blue exclusion or the MTT test. A much less expensive solution than UW, containing only K+-lactobionate, KH2PO4, MgSO4 and raffinose, can be used successfully for preservation of rat hepatocytes for 24 hr for drug transport studies.

Published
1993

12. Human Precision Cut Liver Tumor Slices as a comprehensive predictive test system for the oncolytic effectiveness of measles vaccine viruses

Author

Zimmermann, M, primary, Armeanu, S, additional, Smirnow, I, additional, Kupka, S, additional, Wagner, S, additional, Wehrmann, M, additional, Rots, MG, additional, Groothuis, GMM, additional, Weiß, T, additional, Königsreiner, A, additional, Gregor, M, additional, Bitzer, M, additional, and Lauer, UM, additional

Published
2008
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13. DRUG TRANSPORT, VIABILITY AND MORPHOLOGY OF ISOLATED RAT HEPATOCYTES PRESERVED FOR 24 HOURS IN UNIVERSITY-OF-WISCONSIN SOLUTION

Author

SANDKER, GW, SLOOFF, MJH, GROOTHUIS, GMM, and Biopharmaceuticals, Discovery, Design and Delivery (BDDD)

Subjects
BILE-ACIDS, UW SOLUTION, CANINE LIVER, COLD-STORAGE, PRIMARY CULTURES, CELL VIABILITY, CYTOCHROME-P-450, HEPATIC-UPTAKE, MECHANISMS, INTEGRITY
Abstract

Isolated hepatocytes are a valuable tool to study liver functions. Suitable methods to preserve the isolated cells with good maintenance of viability and functions are crucial to extend experiments with hepatocytes from a single isolation over 2 or more consecutive days. We investigated whether University of Wisconsin (UW) solution, which was designed to preserve organs for transplantation, is also suitable for preservation of isolated rat hepatocytes. Viability, as determined by Trypan blue exclusion and reduction of the tetrazolium 3(4,5-dimethyl-thiazoyl-2-yl)2,5 diphenyltetrazolium bromide to a purple formazan, morphological appearance using electron microscopy, ATP levels and uptake and storage of three model drugs ([H-3]vecuronium, [H-3]taurocholic acid and [H-3]ouabain) were determined directly after isolation and after 22 hr of storage in UW solution at 0-4-degrees. The present study shows that cold storage of rat hepatocytes for 22 hr in UW can be performed without significant loss of viability and with maintenance of proper morphology, cellular ATP and transport functions. In contrast, after storage in Krebs-Henseleit buffer the normal morphology, ATP content and transport functions were strongly affected. These results imply that hepatocytes from a single isolation and stored in UW solution can be used for experiments on 2 consecutive days.

Published
1992

22. Comparison of 'type I' and 'type II' organic cation transport by organic cation transporters and organic anion-transporting polypeptides

Author

Van Montfoort, JE, Muller, M, Groothuis, GMM, Meijer, DKF, Koepsell, H, Meier, PJ, Groningen University Institute for Drug Exploration (GUIDE), Nanomedicine & Drug Targeting, and Biopharmaceuticals, Discovery, Design and Delivery (BDDD)

Subjects
PLASMA-MEMBRANE VESICLES, BILIARY-EXCRETION, UPTAKE SYSTEMS, RAT-LIVER, DRUGS, TRIBUTYLMETHYLAMMONIUM, LOCALIZATION, HEPATOCYTES, HEPATIC-UPTAKE, MECHANISMS
Abstract

Previous inhibition studies with taurocholate and cardiac glycosides suggested the presence of separate uptake systems for small "type I" (system1) and for bulky "type II" (system2) organic cations in rat hepatocytes. To identify the transport systems involved in type I and type II organic cation uptake, we compared the organic cation transport properties of the rat and human organic cation transporter 1 (rOCT1; hOCT1) and of the organic anion-transporting polypeptides 2 and A (rat Oatp2; human OATP-A) in cRNA-injected Xenopus laevis oocytes. Based on characteristic cis-inhibition patterns of rOCT1-mediated tributylmethylammonium and Oatp2-mediated rocuronium uptake, rOCT1 and Oatp2 could be identified as the organic cation uptake systems1 and 2, respectively, in rat liver. While hOCT1 exhibited similar transport properties as rOCT1, OATP-A- but not Oatp2-mediated rocuronium uptake was inhibited by the OATP-A substrate N-methyl-quinidine, The latter substrate was also transported by rOCT1 and hOCT1, demonstrating distinct organic cation transport activities for rOCT1 and Oatp2 and overlapping organic cation transport activities for hOCT1 and OATP-A. Finally, the data demonstrate that unmethylated quinidine is transported by rOCT1, hOCT1, and OATP-A at pH 6.0, but not at pH 7.5, indicating that quinidine requires a positive charge for carrier-mediated uptake into hepatocytes, In conclusion, the studies demonstrate that in rat liver the suggested organic cation uptake systems1 and 2 correspond to rOCT1 and Oatp2, respectively. However, the rat-based type I and II organic cation transporter classification cannot be extended without modification from rat to human.

23. Cellular distribution and handling of liver-targeting preparations in human livers studied by a liver lobe perfusion (vol 29, pg 361, 2001)

Author

Melgert, BN, Olinga, P, Weert, B, Slooff, MJH, Meijer, DKF, Poelstra, K, Groothuis, GMM, Groningen University Institute for Drug Exploration (GUIDE), Nanomedicine & Drug Targeting, Nanotechnology and Biophysics in Medicine (NANOBIOMED), Biopharmaceuticals, Discovery, Design and Delivery (BDDD), Groningen Research Institute for Asthma and COPD (GRIAC), and Groningen Institute for Organ Transplantation (GIOT)

Subjects
SLICES, HUMAN HEPATOCYTES, TRANSPLANTATION, ENDOCYTOSIS, INVIVO, RAT-LIVER, DRUGS, ALBUMIN, ENDOTHELIAL-CELLS, CIRRHOSIS
Abstract

We developed and tested a novel method for perfusing parts of human liver to study uptake and handling of drug-targeting preparations. These preparations, designed for the treatment of liver fibrosis in man, have been extensively studied in animals, but little is known about the uptake and handling by human livers. Human liver tissue was obtained from livers procured from multiorgan donors and from cirrhotic livers of patients. To assess tissue viability, perfusate glutamate-oxalacetate-transaminase (GOT), glutamate-pyruvate-transaminase (GPT), and lactate dehydrogenase (LDH) levels were determined. To assess tissue functionality, the uptake of taurocholic acid and phase I and II metabolism of lidocaine and 7-hydroxycoumarin were determined. Uptake of a drug-targeting preparation was studied with Dexa(10)-HSA, which is designed for targeting of dexamethasone to nonparenchymal cells in the liver. During a 90-min perfusion period, no elevation of either GOT, GPT, or LDH was found. Both healthy control livers and cirrhotic livers showed phase I and II drug metabolism and functional taurocholic acid uptake. Studies with Dexa(10)-HSA revealed that 60 min after administration, 40% of the dose had been taken up by control livers and only 5% by cirrhotic livers. In control livers, Kupffer and endothelial cells had taken up Dexa(10)-HSA, whereas in cirrhotic livers only Kupffer cells were responsible for the uptake. Viability parameters and liver function tests clearly showed the applicability of this method. In the perfusion set-up, we showed uptake of the drug-targeting preparation Dexa(10)-HSA by healthy and cirrhotic human liver tissue, although the distribution patterns differed. This demonstrates the need to study new concepts in (diseased) human tissue.

24. THE PRACTICAL APPLICABILITY OF HEPATOCYTE CULTURES IN ROUTINE TESTING - THE REPORT AND RECOMMENDATIONS OF ECVAM WORKSHOP .1

Author

Blaauboer, Bj, Boobis, Ar, Jose V. Castell, Coecke, S., Groothuis, Gmm, Guillouzo, A., Hall, Tj, Hawksworth, Gm, Lorenzon, G., Miltenburger, Hg, Rogiers, V., Skett, P., Villa, P., Wiebel, Fj, Nanomedicine & Drug Targeting, Groningen University Institute for Drug Exploration (GUIDE), and Biopharmaceuticals, Discovery, Design and Delivery (BDDD)

Subjects
EXPRESSION, COCULTURES, CHEMICALS, LIVER-CELL-CULTURES, RAT HEPATOCYTES, DRUG-METABOLISM, BIOTRANSFORMATION ACTIVITIES, CRYOPRESERVATION, PERFUSED LIVER, CYTOCHROME-P-450

25. Significance of the Vitamin D Receptor on Crosstalk with Nuclear Receptors and Regulation of Enzymes and Transporters.

Author

Noh K, Chow ECY, Quach HP, Groothuis GMM, Tirona RG, and Pang KS

Subjects
Ligands, Membrane Transport Proteins, Receptors, Cytoplasmic and Nuclear metabolism, Calcium metabolism, Receptors, Calcitriol metabolism
Abstract

The vitamin D receptor (VDR), in addition to other nuclear receptors, the pregnane X receptor (PXR) and constitutive androstane receptor (CAR), is involved in the regulation of enzymes, transporters and receptors, and therefore intimately affects drug disposition, tissue health, and the handling of endogenous and exogenous compounds. This review examines the role of 1α,25-dihydroxyvitamin D 3 or calcitriol, the natural VDR ligand, on activation of the VDR and its crosstalk with other nuclear receptors towards the regulation of enzymes and transporters, notably many of the cytochrome P450s including CYP3A4 and sulfotransferase 2A1 (SULT2A1) as well as cholesterol 7α-hydroxylase (CYP7A1). Moreover, the VDR upregulates the intestinal channel, TRPV6, for calcium absorption, LDL receptor-related protein 1 (LRP1) and receptor for advanced glycation end products (RAGE) in brain for β-amyloid peptide efflux and influx, the sodium phosphate transporters (NaP i ), the apical sodium-dependent bile acid transporter (ASBT) and organic solute transporters (OSTα-OSTβ) for bile acid absorption and efflux, respectively, the renal organic anion transporter 3 (OAT3) and several of the ATP-binding cassette protein transporters-the multidrug resistance protein 1 (MDR1) and the multidrug resistance-associated proteins (MRPs). Hence, the role of the VDR is increasingly being recognized for its therapeutic potential and pharmacologic activity, giving rise to drug-drug interactions (DDI). Therapeutically, ligand-activated VDR shows anti-inflammatory effects towards the suppression of inflammatory mediators, improves cognition by upregulating amyloid-beta (Aβ) peptide clearance in brain, and maintains phosphate, calcium, and parathyroid hormone (PTH) balance and kidney function and bone health, demonstrating the crucial roles of the VDR in disease progression and treatment of diseases., (© 2022. The Author(s), under exclusive licence to American Association of Pharmaceutical Scientists.)

Published
2022
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26. Host microbiota dictates the proinflammatory impact of LPS in the murine liver.

Author

Suriguga S, Luangmonkong T, Mutsaers HAM, Groothuis GMM, and Olinga P

Subjects
Animals, Cytokines genetics, Cytokines immunology, Germ-Free Life, Inflammation genetics, Inflammation immunology, Interleukin-1 Receptor-Associated Kinases genetics, Liver immunology, Mice, Inbred C57BL, Nitric Oxide Synthase Type II genetics, Suppressor of Cytokine Signaling 3 Protein genetics, Toll-Like Receptor 4 genetics, Toll-Like Receptor 4 immunology, Lipopolysaccharides pharmacology, Liver drug effects, Microbiota
Abstract

Gut microbiota can impact liver disease development via the gut-liver axis. Liver inflammation is a shared pathological event in various liver diseases and gut microbiota might influence this pathological process. In this study, we studied the influence of gut microbiota on the inflammatory response of the liver to lipopolysaccharide (LPS). The inflammatory response to LPS (1-10 μg/ml) of livers of specific-pathogen-free (SPF) or germ-free (GF) mice was evaluated ex vivo, using precision-cut liver slices (PCLS). LPS induced a more pronounced inflammatory response in GF PCLS than in SPF PCLS. Baseline TNF-α gene expression was significantly higher in GF slices as compared to SPF slices. LPS treatment induced TNF-α, IL-1β, IL-6 and iNOS expression in both SPF and GF PCLS, but the increase was more intense in GF slices. The anti-inflammatory markers SOCS3 and IRAK-M gene expression was significantly higher in GF PCLS than SPF PCLS at 24h with 1 µg/ml LPS treatment, and IL-10 was not differently expressed in GF PCLS than SPF PCLS. In addition, TLR-4 mRNA, but not protein, at basal level was higher in GF slices than in SPF slices. Taken together, this study shows that, in mice, the host microbiota attenuates the pro-inflammatory impact of LPS in the liver, indicating a positive role of the gut microbiota on the immune homeostasis of the liver., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2020
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27. Targeted imaging of integrins in cancer tissues using photocleavable Ru(ii) polypyridine complexes as mass-tags.

Author

Han J, Sun J, Song S, Beljaars L, Groothuis GMM, Permentier H, Bischoff R, Halmos GB, Verhoeven CJ, Amstalden van Hove ER, Horvatovich P, and Casini A

Subjects
Humans, Mass Spectrometry methods, Peptides, Cyclic chemistry, Pyridines chemistry, Ruthenium chemistry, Head and Neck Neoplasms metabolism, Integrin alphaVbeta3 metabolism, Peptides, Cyclic pharmacology, Pyridines pharmacology, Ruthenium pharmacology
Abstract

Targeted epitope-based mass spectrometry imaging (MSI) utilizes laser cleavable mass-tags bound to targeting moieties for detecting proteins in tissue sections. Our work constitutes the first proof-of-concept of a novel laser desorption ionization (LDI)-MSI strategy using photocleavable Ru(ii) polypyridine complexes as mass-tags for imaging of integrins αvβ3 in human cancer tissues.

Published
2020
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28. Ex vivo toxicological evaluation of experimental anticancer gold(i) complexes with lansoprazole-type ligands.

Author

Estrada-Ortiz N, Lopez-Gonzales E, Woods B, Stürup S, de Graaf IAM, Groothuis GMM, and Casini A

Abstract

Gold-based compounds are of great interest in the field of medicinal chemistry as novel therapeutic (anticancer) agents due to their peculiar reactivity and mechanisms of action with respect to organic drugs. Despite their promising pharmacological properties, the possible toxic effects of gold compounds need to be carefully evaluated in order to optimize their design and applicability. This study reports on the potential toxicity of three experimental gold-based anticancer compounds featuring lansoprazole ligands ( 1-3 ) studied in an ex vivo model, using rat precision cut kidney and liver slices (PCKS and PCLS, respectively). The results showed a different toxicity profile for the tested compounds, with the neutral complex 2 being the least toxic, even less toxic than cisplatin, followed by the cationic complex 1 . The dinuclear cationic gold complex 3 was the most toxic in both liver and kidney slices. This result correlated with the metal uptake of the different compounds assessed by ICP-MS, where complex 3 showed the highest accumulation of gold in liver and kidney slices. Interestingly compound 1 showed the highest selectivity towards cancer cells compared to the healthy tissues. Histomorphology evaluation showed a similar pattern for all three Au(i) complexes, where the distal tubular cells suffered the most extensive damage, in contrast to the damage in the proximal tubules induced by cisplatin. The binding of representative gold compounds with the model ubiquitin was also studied by ESI-MS, showing that after 24 h incubation only 'naked' Au ions were bound to the protein following ligands' loss. The mRNA expression of stress response genes appeared to be similar for both evaluated organs, suggesting oxidative stress as the possible mechanism of toxicity. The obtained results open new perspectives towards the design and testing of bifunctional gold complexes with chemotherapeutic applications., (This journal is © The Royal Society of Chemistry 2019.)

Published
2019
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29. Development of a Novel Ex-vivo 3D Model to Screen Amoebicidal Activity on Infected Tissue.

Author

Guzmán-Delgado NE, Carranza-Torres IE, García-Davis S, Rivera G, Morán-Martínez J, Betancourt-Martínez ND, Groothuis GMM, de Graaf IAM, and Carranza-Rosales P

Subjects
Animals, Cell Death drug effects, Cricetinae, Entamoebiasis parasitology, Entamoebiasis pathology, Intestines parasitology, Male, Amebicides pharmacology, Drug Evaluation, Preclinical, Entamoeba histolytica drug effects, Liver parasitology, Models, Molecular
Abstract

Amoebiasis is a parasitic disease that causes thousands of deaths every year, its adverse effects and resistance to conventional treatments have led to the search of new treatment options, as well as the development of novel screening methods. In this work, we implemented a 3D model of intestine and liver slices from hamsters that were infected ex vivo with virulent E. histolytica trophozoites. Results show preserved histology in both uninfected tissues as well as ulcerations, destruction of the epithelial cells, and inflammatory reaction in intestine slices and formation of micro abscesses, and the presence of amoebae in the sinusoidal spaces and in the interior of central veins in liver slices. The three chemically synthetized compounds T-001, T-011, and T-016, which act as amoebicides in vitro, were active in both infected tissues, as they decreased the number of trophozoites, and provoked death by disintegration of the amoeba, similar to metronidazole. However, compound T-011 induced signs of cytotoxicity to liver slices. Our results suggest that ex vivo cultures of precision-cut intestinal and liver slices represent a reliable 3D approach to evaluate novel amoebicidal compounds, and to simultaneously detect their toxicity, while reducing the number of experimental animals commonly required by other model systems.

Published
2019
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30. Bioconjugation of Supramolecular Metallacages to Integrin Ligands for Targeted Delivery of Cisplatin.

Author

Han J, Räder AFB, Reichart F, Aikman B, Wenzel MN, Woods B, Weinmüller M, Ludwig BS, Stürup S, Groothuis GMM, Permentier HP, Bischoff R, Kessler H, Horvatovich P, and Casini A

Subjects
Animals, Antineoplastic Agents pharmacology, Cell Line, Tumor, Cisplatin pharmacology, Drug Carriers chemistry, Drug Delivery Systems, Humans, Ligands, Male, Melanoma metabolism, Metal-Organic Frameworks chemistry, Palladium chemistry, Rats, Wistar, Antineoplastic Agents administration & dosage, Cisplatin administration & dosage, Drug Carriers metabolism, Integrin alphaVbeta3 metabolism, Melanoma drug therapy, Metal-Organic Frameworks metabolism, Palladium metabolism
Abstract

Cisplatin occupies a crucial role in the treatment of various malignant tumors. However, its efficacy and applicability are heavily restricted by severe systemic toxicities and drug resistance. Our study exploits the active targeting of supramolecular metallacages to enhance the activity of cisplatin in cancer cells while reducing its toxicity. Thus, Pd 2 L 4 cages (L = ligand) have been conjugated to four integrin ligands with different binding affinity and selectivity. Cage formation and encapsulation of cisplatin was proven by NMR spectroscopy. Upon encapsulation, cisplatin showed increased cytotoxicity in vitro, in melanoma A375 cells overexpressing αvβ3 integrins. Moreover, ex vivo studies in tissue slices indicated reduced toxicity toward healthy liver and kidney tissues for cage-encapsulated cisplatin. Analysis of metal content by ICP-MS demonstrated that the encapsulated drug is less accumulated in these organs compared to the "free" cisplatin.

Published
2018
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31. Human and rat precision-cut intestinal slices as ex vivo models to study bile acid uptake by the apical sodium-dependent bile acid transporter.

Author

Li M, Vokral I, Evers B, de Graaf IAM, de Jager MH, and Groothuis GMM

Subjects
Adenosine Triphosphate metabolism, Aged, Animals, Biological Transport, Female, Fluvastatin pharmacology, Humans, In Vitro Techniques, Intestinal Absorption, Male, Middle Aged, Organic Anion Transporters, Sodium-Dependent antagonists & inhibitors, Rats, Wistar, Simvastatin pharmacology, Symporters antagonists & inhibitors, Taurocholic Acid metabolism, Bile Acids and Salts metabolism, Ileum metabolism, Organic Anion Transporters, Sodium-Dependent metabolism, Symporters metabolism
Published
2018
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33. Cleavable Crosslinkers as Tissue Fixation Reagents for Proteomic Analysis.

Author

Ongay S, Langelaar-Makkinje M, Stoop MP, Liu N, Overkleeft H, Luider TM, Groothuis GMM, and Bischoff R

Subjects
Animals, Chromatography, Liquid, Liver cytology, Periodic Acid chemistry, Proteome chemistry, Proteomics methods, Rats, Tandem Mass Spectrometry, Cross-Linking Reagents chemistry, Fixatives chemistry, Proteome analysis, Succinimides chemistry, Tissue Fixation methods
Abstract

Formaldehyde fixation is widely used for long-term maintenance of tissue. However, due to formaldehyde-induced crosslinks, fixed tissue proteins are difficult to extract, which hampers mass spectrometry (MS) proteomic analyses. Recent years have seen the use of different combinations of high temperature and solubilizing agents (usually derived from antigen retrieval techniques) to unravel formaldehyde-fixed paraffin-embedded tissue proteomes. However, to achieve protein extraction yields similar to those of fresh-frozen tissue, high-temperature heating is necessary. Such harsh extraction conditions can affect sensitive amino acids and post-translational modifications, resulting in the loss of important information, while still not resulting in protein yields comparable to those of fresh-frozen tissue. Herein, the objective is to evaluate cleavable protein crosslinkers as fixatives that allow tissue preservation and efficient protein extraction from fixed tissue for MS proteomics under mild conditions. With this goal in mind, disuccinimidyl tartrate (DST) and dithiobis(succinimidylpropionate) (DSP) are investigated as cleavable fixating reagents. These compounds crosslink proteins by reacting with amino groups, leading to amide bond formation, and can be cleaved with sodium metaperiodate (cis-diols, DST) or reducing agents (disulfide bonds, DSP), respectively. Results show that cleavable protein crosslinking with DST and DSP allows tissue fixation with morphology preservation comparable to that of formaldehyde. In addition, cleavage of DSP improves protein recovery from fixed tissue by a factor of 18 and increases the number of identified proteins by approximately 20 % under mild extraction conditions compared with those of formaldehyde-fixed paraffin-embedded tissue. A major advantage of DSP is the introduction of well-defined protein modifications that can be taken into account during database searching. In contrast to DSP fixation, DST fixation followed by cleavage with sodium metaperiodate, although effective, results in side reactions that prevent effective protein extraction and interfere with protein identification. Protein crosslinkers that can be cleaved under mild conditions and result in defined modifications, such as DSP, are thus viable alternatives to formaldehyde as tissue fixatives to facilitate protein analysis from paraffin-embedded, fixed tissue., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2018
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34. Development of a mechanistic biokinetic model for hepatic bile acid handling to predict possible cholestatic effects of drugs.

Author

Notenboom S, Weigand KM, Proost JH, van Lipzig MMH, van de Steeg E, van den Broek PHH, Greupink R, Russel FGM, and Groothuis GMM

Subjects
ATP Binding Cassette Transporter, Subfamily B, Member 11 metabolism, Biological Transport drug effects, Cell Line, HEK293 Cells, Humans, Kinetics, Membrane Transport Proteins metabolism, Organic Anion Transporters, Sodium-Dependent metabolism, Symporters metabolism, Bile Acids and Salts metabolism, Chemical and Drug Induced Liver Injury metabolism, Cholestasis chemically induced, Cholestasis metabolism, Liver metabolism, Pharmaceutical Preparations metabolism
Abstract

Drug-induced liver injury (DILI) is a common reason for drug withdrawal from the market. An important cause of DILI is drug-induced cholestasis. One of the major players involved in drug-induced cholestasis is the bile salt efflux pump (BSEP; ABCB11). Inhibition of BSEP by drugs potentially leads to cholestasis due to increased (toxic) intrahepatic concentrations of bile acids with subsequent cell injury. In order to investigate the possibilities for in silico prediction of cholestatic effects of drugs, we developed a mechanistic biokinetic model for human liver bile acid handling populated with human in vitro data. For this purpose we considered nine groups of bile acids in the human bile acid pool, i.e. chenodeoxycholic acid, deoxycholic acid, the remaining unconjugated bile acids and the glycine and taurine conjugates of each of the three groups. Michaelis-Menten kinetics of the human uptake transporter Na + -taurocholate cotransporting polypeptide (NTCP; SLC10A1) and BSEP were measured using NTCP-transduced HEK293 cells and membrane vesicles from BSEP-overexpressing HEK293 cells. For in vitro-in vivo scaling, transporter abundance was determined by LC-MS/MS in these HEK293 cells and vesicles as well as in human liver tissue. Other relevant human kinetic parameters were collected from literature, such as portal bile acid levels and composition, bile acid synthesis and amidation rate. Additional empirical scaling was applied by increasing the excretion rate with a factor 2.4 to reach near physiological steady-state intracellular bile acid concentrations (80μM) after exposure to portal vein bile acid levels. Simulations showed that intracellular bile acid concentrations increase 1.7 fold in the presence of the BSEP inhibitors and cholestatic drugs cyclosporin A or glibenclamide, at intrahepatic concentrations of 6.6 and 20μM, respectively. This simplified model provides a tool for a first indication whether drugs at therapeutic concentrations might cause cholestasis by inhibiting BSEP., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2018
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35. Alterations in gene expression in vitamin D-deficiency: Down-regulation of liver Cyp7a1 and renal Oat3 in mice.

Author

Quach HP, Noh K, Hoi SY, Bruinsma A, Groothuis GMM, Li AP, Chow ECY, and Pang KS

Subjects
Animals, Bile Acids and Salts metabolism, Calcifediol blood, Calcium blood, Calcium pharmacology, Cholecalciferol pharmacology, Cholesterol blood, Cholesterol metabolism, Cholesterol 7-alpha-Hydroxylase blood, Cholesterol 7-alpha-Hydroxylase genetics, Diet methods, Gallbladder metabolism, Humans, Intestinal Mucosa metabolism, Mice, Mice, Inbred C57BL, Organic Anion Transporters, Sodium-Independent genetics, Parathyroid Hormone blood, Vitamin D analogs & derivatives, Vitamin D blood, Cholesterol 7-alpha-Hydroxylase biosynthesis, Down-Regulation, Gene Expression Regulation, Enzymologic, Kidney metabolism, Liver metabolism, Organic Anion Transporters, Sodium-Independent biosynthesis, Vitamin D Deficiency enzymology, Vitamin D Deficiency genetics
Abstract

The vitamin D-deficient model, established in the C57BL/6 mouse after 8 weeks of feeding vitamin D-deficient diets in the absence or presence of added calcium, was found associated with elevated levels of plasma parathyroid hormone (PTH) and plasma and liver cholesterol, and a reduction in cholesterol 7α-hydroxylase (Cyp7a1, rate-limiting enzyme for cholesterol metabolism) and renal Oat3 mRNA/protein expression levels. However, there was no change in plasma calcium and phosphate levels. Appraisal of the liver revealed an up-regulation of mRNA expressions of the small heterodimer partner (Shp) and attenuation of Cyp7a1, which contributed to hypercholesterolemia in vitamin D-deficiency. When vitamin D-sufficient or D-deficient mice were further rendered hypercholesterolemic with 3 weeks of feeding the respective, high fat/high cholesterol (HF/HC) diets, treatment with 1α,25-dihydroxyvitamin D 3 [1,25(OH) 2 D 3 ], active vitamin D receptor (VDR) ligand, or vitamin D (cholecalciferol) to HF/HC vitamin D-deficient mice lowered the cholesterol back to baseline levels. Cholecalciferol treatment partially restored renal Oat3 mRNA/protein expression back to that of vitamin D-sufficient mice. When the protein expression of protein kinase C (PKC), a known, negative regulator of Oat3, was examined in murine kidney, no difference in PKC expression was observed for any of the diets with/without 1,25(OH) 2 D 3 /cholecalciferol treatment, inferring that VDR regulation of renal Oat3 did not involve PKC in mice. As expected, plasma calcium levels were not elevated by cholecalciferol treatment of vitamin D-deficient mice, while 1,25(OH) 2 D 3 treatment led to hypercalcemia. In conclusion, vitamin D-deficiency resulted in down-regulation of liver Cyp7a1 and renal Oat3, conditions that are alleviated upon replenishment of cholecalciferol., (Copyright © 2017 John Wiley & Sons, Ltd.)

Published
2018
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36. Targeting Oxidative Stress for the Treatment of Liver Fibrosis.

Author

Luangmonkong T, Suriguga S, Mutsaers HAM, Groothuis GMM, Olinga P, and Boersema M

Subjects
Endoplasmic Reticulum Stress drug effects, Humans, Mitochondria drug effects, NADPH Oxidases antagonists & inhibitors, Toll-Like Receptors antagonists & inhibitors, Hepatic Stellate Cells metabolism, Hepatocytes metabolism, Liver Cirrhosis therapy, Oxidative Stress, Reactive Oxygen Species metabolism
Abstract

Oxidative stress is a reflection of the imbalance between the production of reactive oxygen species (ROS) and the scavenging capacity of the antioxidant system. Excessive ROS, generated from various endogenous oxidative biochemical enzymes, interferes with the normal function of liver-specific cells and presumably plays a role in the pathogenesis of liver fibrosis. Once exposed to harmful stimuli, Kupffer cells (KC) are the main effectors responsible for the generation of ROS, which consequently affect hepatic stellate cells (HSC) and hepatocytes. ROS-activated HSC undergo a phenotypic switch and deposit an excessive amount of extracellular matrix that alters the normal liver architecture and negatively affects liver function. Additionally, ROS stimulate necrosis and apoptosis of hepatocytes, which causes liver injury and leads to the progression of end-stage liver disease. In this review, we overview the role of ROS in liver fibrosis and discuss the promising therapeutic interventions related to oxidative stress. Most importantly, novel drugs that directly target the molecular pathways responsible for ROS generation, namely, mitochondrial dysfunction inhibitors, endoplasmic reticulum stress inhibitors, NADPH oxidase (NOX) inhibitors, and Toll-like receptor (TLR)-affecting agents, are reviewed in detail. In addition, challenges for targeting oxidative stress in the management of liver fibrosis are discussed.

Published
2018
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37. Challenges on the road to a multicellular bioartificial liver.

Author

Starokozhko V and Groothuis GMM

Subjects
Acute-On-Chronic Liver Failure therapy, Animals, Bile metabolism, Coculture Techniques, Humans, Liver Failure, Acute therapy, Pharmaceutical Preparations, Liver, Artificial
Abstract

Over recent years, the progress in the development of a bioartificial liver (BAL) as an extracorporeal device or as a tissue engineered transplantable organ has been immense. However, many important BAL characteristics that are necessary to meet clinical demands have not been sufficiently addressed. This review describes the existing challenges in the development of a BAL for clinical applications, highlighting multicellularity and sinusoidal microarchitecture as crucial BAL characteristics to fulfil various liver functions. Currently available sources of nonparenchymal liver cells, such as endothelial cells, cholangiocytes and macrophages, used in BAL development are defined. Also, we discuss the recent studies on the reconstruction of the complex liver sinusoid microarchitecture using various liver cell types. Moreover, we highlight some other aspects of a BAL, such as liver zonation and formation of a vascular as well as biliary network for an adequate delivery, biotransformation and removal of substrates and waste products. Finally, the benefits of a multicellular BAL for the pharmaceutical industry are briefly described. Copyright © 2016 John Wiley & Sons, Ltd., (Copyright © 2016 John Wiley & Sons, Ltd.)

Published
2018
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38. On the toxicity and transport mechanisms of cisplatin in kidney tissues in comparison to a gold-based cytotoxic agent.

Author

Spreckelmeyer S, Estrada-Ortiz N, Prins GGH, van der Zee M, Gammelgaard B, Stürup S, de Graaf IAM, Groothuis GMM, and Casini A

Subjects
Adenosine Triphosphate metabolism, Animals, Antiporters metabolism, Kidney drug effects, Kidney pathology, Male, Organic Cation Transport Proteins metabolism, Organic Cation Transporter 2 metabolism, Rats, Rats, Wistar, Antineoplastic Agents toxicity, Cisplatin toxicity, Cytotoxins toxicity, Gold toxicity, Kidney metabolism
Abstract

Mechanisms of toxicity and cellular transport of anticancer metallodrugs, including platinum-based agents, have not yet been fully elucidated. Here, we studied the toxic effects and accumulation mechanisms of cisplatin in healthy rat kidneys ex vivo, using the Precision Cut Tissue Slices (PCTS) method. In addition, for the first time, we investigated the nephrotoxic effects of an experimental anticancer cyclometallated complex [Au(py b -H)(PTA)Cl]PF 6 (PTA = 1,3,5-triazaphosphaadamantane). The viability of the kidney slices after metallodrug treatment was evaluated by ATP content determination and histomorphology analysis. A concentration dependent decrease in viability of PCKS was observed after exposure to cisplatin or the Au(iii) complex, which correlated with the increase in slice content of Pt and Au, respectively. Metal accumulation in kidney slices was analysed by ICP-MS. The involvement of OCTs and MATE transporters in the accumulation of both metal compounds in kidneys was evaluated co-incubating the tissues with cimitedine, inhibitor of OCT and MATE. Studies of mRNA expression of the markers KIM-1, villin, p53 and Bax showed that cisplatin damages proximal tubules, whereas the Au(iii) complex preferentially affects the distal tubules. However, no effect of cimetidine on the toxicity or accumulation of cisplatin and the Au(iii) complex was observed. The effect of temperature on metallodrug accumulation in kidneys suggests the involvement of a carrier-mediated uptake process, other than OCT2, for cisplatin; while carrier-mediated excretion was suggested in the cases of the Au(iii) complex.

Published
2017
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39. Rat precision-cut liver slices predict drug-induced cholestatic injury.

Author

Starokozhko V, Greupink R, van de Broek P, Soliman N, Ghimire S, de Graaf IAM, and Groothuis GMM

Subjects
ATP Binding Cassette Transporter, Subfamily B, Member 11 genetics, Animals, Bile Acids and Salts metabolism, Cholestasis chemically induced, Gene Expression Regulation drug effects, Liver metabolism, Liver pathology, Male, Organic Anion Transporters, Sodium-Dependent genetics, Rats, Wistar, Symporters genetics, Chemical and Drug Induced Liver Injury etiology, Liver drug effects, Organ Culture Techniques methods, Toxicity Tests methods
Abstract

Drug-induced cholestasis (DIC) is one of the leading manifestations of drug-induced liver injury (DILI). As the underlying mechanisms for DIC are not fully known and specific and predictive biomarkers and pre-clinical models are lacking, the occurrence of DIC is often only reported when the drug has been approved for registration. Therefore, appropriate models that predict the cholestatic potential of drug candidates and/or provide insight into the mechanism of DIC are highly needed. We investigated the application of rat precision-cut liver slices (PCLS) to predict DIC, using several biomarkers of cholestasis: hepatocyte viability, intracellular accumulation of total as well as individual bile acids and changes in the expression of genes known to play a role in cholestasis. Rat PCLS exposed to the cholestatic drugs chlorpromazine, cyclosporine A and glibenclamide for 48 h in the presence of a 60 μM physiological bile acid (BA) mix reflected various changes associated with cholestasis, such as decrease in hepatocyte viability, accumulation and changes in the composition of BA and changes in the gene expression of Fxr, Bsep and Ntcp. The toxicity of the drugs was correlated with the accumulation of BA, and especially DCA and CDCA and their conjugates, but to a different extent for different drugs, indicating that BA toxicity is not the only cause for the toxicity of cholestatic drugs. Moreover, our study supports the use of several biomarkers to test drugs for DIC. In conclusion, our results indicate that PCLS may represent a physiological and valuable model to identify cholestatic drugs and provide insight into the mechanisms underlying DIC.

Published
2017
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40. Anticancer Gold N-Heterocyclic Carbene Complexes: A Comparative in vitro and ex vivo Study.

Author

Estrada-Ortiz N, Guarra F, de Graaf IAM, Marchetti L, de Jager MH, Groothuis GMM, Gabbiani C, and Casini A

Subjects
Animals, Antineoplastic Agents toxicity, Cell Line, Tumor, Heterocyclic Compounds toxicity, Humans, Kidney drug effects, Male, Methane analogs & derivatives, Methane chemistry, Methane pharmacology, Methane toxicity, Neoplasms drug therapy, Organogold Compounds toxicity, Rats, Wistar, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Heterocyclic Compounds chemistry, Heterocyclic Compounds pharmacology, Organogold Compounds chemistry, Organogold Compounds pharmacology
Abstract

A series of organometallic Au I N-heterocyclic carbene (NHC) complexes was synthesized and characterized for anticancer activity in four human cancer cell lines. The compounds' toxicity in healthy tissue was determined using precision-cut kidney slices (PCKS) as a tool to determine the potential selectivity of the gold complexes ex vivo. All evaluated compounds presented cytotoxic activity toward the cancer cells in the nano- or low micromolar range. The mixed Au I NHC complex, (tert-butylethynyl)-1,3-bis-(2,6-diisopropylphenyl)imidazol-2-ylidene gold(I), bearing an alkynyl moiety as ancillary ligand, showed high cytotoxicity in cancer cells in vitro, while being barely toxic in healthy rat kidney tissues. The obtained results open new perspectives toward the design of mixed NHC-alkynyl gold complexes for cancer therapy., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2017
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42. Maintenance of drug metabolism and transport functions in human precision-cut liver slices during prolonged incubation for 5 days.

Author

Starokozhko V, Vatakuti S, Schievink B, Merema MT, Asplund A, Synnergren J, Aspegren A, and Groothuis GMM

Subjects
Adenosine Triphosphate metabolism, Albumins biosynthesis, Carrier Proteins metabolism, Culture Media, Fibrosis genetics, Gene Expression Regulation, Humans, Inactivation, Metabolic, Liver drug effects, Liver pathology, Oxidative Stress genetics, Xenobiotics metabolism, Xenobiotics pharmacokinetics, Enzymes metabolism, Liver metabolism, Organ Culture Techniques methods
Abstract

Human precision-cut liver slices (hPCLS) are a valuable ex vivo model that can be used in acute toxicity studies. However, a rapid decline in metabolic enzyme activity limits their use in studies that require a prolonged xenobiotic exposure. The aim of the study was to extend the viability and function of hPCLS to 5 days of incubation. hPCLS were incubated in two media developed for long-term culture of hepatocytes, RegeneMed ® , and Cellartis ® , and in the standard medium WME. Maintenance of phase I and II metabolism was studied both on gene expression as well as functional level using a mixture of CYP isoform-specific substrates. Albumin synthesis, morphological integrity, and glycogen storage was assessed, and gene expression was studied by transcriptomic analysis using microarrays with a focus on genes involved in drug metabolism, transport and toxicity. The data show that hPCLS retain their viability and functionality during 5 days of incubation in Cellartis ® medium. Albumin synthesis as well as the activity and gene expression of phase I and II metabolic enzymes did not decline during 120-h incubation in Cellartis ® medium, with CYP2C9 activity as the only exception. Glycogen storage and morphological integrity were maintained. Moreover, gene expression changes in hPCLS during incubation were limited and mostly related to cytoskeleton remodeling, fibrosis, and moderate oxidative stress. The expression of genes involved in drug transport, which is an important factor in determining the intracellular xenobiotic exposure, was also unchanged. Therefore, we conclude that hPCLS cultured in Cellartis ® medium are a valuable human ex vivo model for toxicological and pharmacological studies that require prolonged xenobiotic exposure.

Published
2017
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43. Validation of precision-cut liver slices to study drug-induced cholestasis: a transcriptomics approach.

Author

Vatakuti S, Olinga P, Pennings JLA, and Groothuis GMM

Subjects
1-Naphthylisothiocyanate toxicity, Aged, Chlorpromazine adverse effects, Cholestasis genetics, Cyclosporine adverse effects, Dose-Response Relationship, Drug, Ethinyl Estradiol adverse effects, Female, Gene Expression Profiling methods, Humans, Male, Methyltestosterone adverse effects, Middle Aged, Signal Transduction drug effects, Signal Transduction genetics, Transcriptome drug effects, Young Adult, Cholestasis chemically induced, Liver drug effects
Abstract

Hepatotoxicity is one of the major reasons for withdrawal of drugs from the market. Therefore, there is a need to screen new drugs for hepatotoxicity in humans at an earlier stage. The aim of this study was to validate human precision-cut liver slices (PCLS) as an ex vivo model to predict drug-induced cholestasis and identify the possible mechanisms of cholestasis-induced toxicity using gene expression profiles. Five hepatotoxicants, which are known to induce cholestasis (alpha-naphthyl isothiocyanate, chlorpromazine, cyclosporine, ethinyl estradiol and methyl testosterone) were used at concentrations inducing low (<30 %) and medium (30-50 %) toxicity, based on ATP content. Human PCLS were incubated with the drugs in the presence of a non-toxic concentration (60 µM) of a bile acid mixture (portal vein concentration and composition) as model for bile acid-induced cholestasis. Regulated genes include bile acid transporters and cholesterol transporters. Pathway analysis revealed that hepatic cholestasis was among the top ten regulated pathways, and signaling pathways such as farnesoid X receptor- and liver X receptor-mediated responses, which are known to play a role in cholestasis, were significantly affected by all cholestatic compounds. Other significantly affected pathways include unfolded protein response and protein ubiquitination implicating the role of endoplasmic reticulum stress. This study shows that human PCLS incubated in the presence of a physiological bile acid mixture correctly reflect the pathways affected in drug-induced cholestasis in the human liver. In the future, this human PCLS model can be used to identify cholestatic adverse drug reactions of new chemical entities.

Published
2017
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44. Human liver slices as an in vitro model to study toxicity-induced hepatic stellate cell activation in a multicellular milieu.

Author

van de Bovenkamp M, Groothuis GMM, Meijer DKF, Slooff MJH, and Olinga P

Subjects
Carbon Tetrachloride toxicity, Cell Survival drug effects, HSP47 Heat-Shock Proteins genetics, Hepatocytes metabolism, Hepatocytes pathology, Humans, In Vitro Techniques, Liver cytology, Liver metabolism, Liver pathology, RNA, Messenger genetics, RNA, Messenger metabolism, alpha-Crystallin B Chain genetics, Hepatocytes cytology, Hepatocytes drug effects, Liver drug effects, Models, Biological
Abstract

Introduction: Hepatic stellate cell (HSC) activation is a key event in wound healing as well as in fibrosis development in the liver. Previously we developed a technique to induce HSC activation in slices from rat liver. Although this model provides a physiologic, multicellular milieu that is not present in current in vitro models it might still be of limited predictive value for the human situation due to species-differences. Therefore, we now aimed to evaluate the applicability of human liver slices for the study of HSC activation., Method: Liver slices (8 mm diameter, 250 microm thickness) were generated from human liver tissue and incubated for 3 or 16 h with 0-15 microl of carbon tetrachloride (CCl4) after which ATP-content and expression levels of HSC (activation) markers was determined., Results: Human liver slices remained viable during incubation as shown by constant ATP levels. Incubation with CCl(4) caused a dose-dependent decrease in viability and an increase in mRNA expression of the early HSC activation markers HSP47 and alphaB-crystallin, but not the late markers for HSC activation, alphaSMA and pro-collagen 1a1. Synaptophysin mRNA expression remained constant during incubation with or without CCl4, indicating a constant number of HSC in the liver slices., Conclusion: We developed a technique to induce early toxicity-induced HSC activation in human liver slices. This in vitro model provides a multicellular, physiologic milieu to study mechanisms underlying toxicity-induced HSC activation in human liver tissue.

Published
2006
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