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1. Relative developmental toxicity of glycol ether alkoxy acid metabolites in the embryonic stem cell test as compared with the in vivo potency of their parent compounds

Author

Jong, E. de, Louisse, J., Verwei, M., Blaauboer, B.J., Sandt, J.J.M. van de, Woutersen, R.A., Rietjens, I.M.C.M., Piersma, A.H., Risk Assessment of Toxic and Immunomodulatory Agents, Dep IRAS, and TNO Kwaliteit van Leven

Subjects
glycol ether alkoxy acid metabolite, Developmental toxicology, animal cell, Glycols, Mice, sensitivity analysis, toxicokinetics, phenoxyacetic acid, Myocytes, Cardiac, Alternatives to animal testing, toxin, Glycol ethers, developmental disorder, embryonic stem cell test, Biotransformation, article, food and beverages, Cell Differentiation, Reference Standards, unclassified drug, Chemistry, Teratogens, ethoxyacetic acid, methoxyacetic acid, Embryonic stem cells, embryotoxicity, butoxyacetic acid, Cell Survival, Embryonic Development, heart muscle cell, Animal Testing Alternatives, in vivo study, Structure-Activity Relationship, Predictive Value of Tests, developmental toxicity, Animals, Animalia, controlled study, mouse, nonhuman, Models, Statistical, Dose-Response Relationship, Drug, embryonic stem cell, Kinetics, Toxicology and Applied Pharmacology, concentration response, chemical analysis, chemical structure, cytotoxicity test
Abstract

The embryonic stem cell test (EST) has been proposed as an in vitro assay that might reduce animal experimentation in regulatory developmental toxicology. So far, evaluation of the EST was not performed using compounds within distinct chemical classes. Evaluation within a distinct class of chemically related compounds can define the usefulness of the assay for the chemical class tested. The aim of the present study was to evaluate the relative sensitivity of the EST for a selected series of homologous compounds and to compare the data to the relative developmental toxicity of the compounds in vivo. To this end a series of proximate developmentally toxic glycol ether alkoxy acid metabolites was tested in the EST. All glycol ether alkoxy acid metabolites tested showed a concentration-dependent inhibition of cardiomyocyte differentiation at noncytotoxic concentrations, with methoxyacetic acid as the most potent compound followed by ethoxyacetic acid, butoxyacetic acid, and phenoxyacetic acid, respectively. The potency ranking of the compounds in the EST corresponds with the available in vivo data. The relative differences between the potencies of the compounds appeared more pronounced in the in vivo studies than in the EST. A possible explanation for this discrepancy could be the difference in the kinetics of the compounds in vivo as compared with their in vitro kinetics. This study illustrates that the EST can be used to set priorities for developmental toxicity testing within classes of related compounds. © The Author 2009. Published by Oxford University Press on behalf of the Society of Toxicology. All rights reserved.

Published
2009

2. Relative absorption and dermal loading of chemical substances: Consequences for risk assessment

Author

Buist, H.E., Schaafsma, G., Sandt, J.J.M. van de, and TNO Kwaliteit van Leven

Subjects
azinphos methyl, phosmet, in vitro study, triclosan, Food and Chemical Risk Analysis, Dermal absorption, mevinphos, zinc chloride, aminolevulinic acid, volatile agent, in vivo study, skin irritation, In vitro, 2 ethoxyethanol, health hazard, disulfoton, In vivo, chemical compound, hydrocortisone, human, parathion, pentachlorophenol, pesticide, Risk assessment, ibuprofen, iprodione, aminolevulinic acid hexyl ester, malathion, nonhuman, integumentary system, naloxone, benzoic acid, article, benzo[a]pyrene, pyrene, molecular weight, catechol, aminolevulinic acid methyl ester, skin absorption, flurbiprofen, Chemistry, hexachlorobenzene, priority journal, testosterone, trimethylamine, Dermal loading, 1 methyl 2 pyrrolidinone, atrazine
Abstract

Quantification of skin absorption is an essential step in reducing the uncertainty of dermal risk assessment. Data from literature indicate that the relative dermal absorption of substances is dependent on dermal loading. Therefore, an internal exposure calculated with absorption data determined at a dermal loading not comparable to the actual loading may lead to a wrong assessment of the actual health risk. To investigate the relationship between dermal loading and relative absorption in a quantitative manner, 138 dermal publicly available absorption experiments with 98 substances were evaluated (87 in vitro, 51 in vivo; molecular weight between 40 and 950, log P between -5 and 13), with dermal loading ranging mostly between 0.001 and 10 mg/cm2. In 87 experiments (63%) an inverse relationship was observed between relative dermal absorption and dermal loading, with an average decrease of factor 33 ± 69. Known skin irritating and volatile substances less frequently showed an inverse relationship between dermal loading and relative absorption. © 2009 Elsevier Inc. All rights reserved.

Published
2009

3. Application of the threshold of toxicological concern (TTC) to the safety evaluation of cosmetic ingredients

Author

Kroes, R., Renwick, A.G., Feron, V., Galli, C.L., Gibney, M., Greim, H., Guy, R.H., Lhuguenot, J.C., Sandt, J.J.M. van de, and TNO Kwaliteit van Leven

Subjects
drug exposure, Administration, Oral, Threshold of toxicological concern (TTC), Cosmetics, Administration, Cutaneous, Decision Support Techniques, Toxicity Tests, physical chemistry, Humans, cardiovascular diseases, human, Analytical research, cosmetic, comparative study, Risk assessment, No-Observed-Adverse-Effect Level, nonhuman, food, Decision Trees, article, flavoring agent, Trans-dermal absorption, first pass effect, chemical structure, Cosmetic ingredients, Safety, Chemistry Safety
Abstract

The threshold of toxicological concern (TTC) has been used for the safety assessment of packaging migrants and flavouring agents that occur in food. The approach compares the estimated oral intake with a TTC value derived from chronic oral toxicity data for structurally-related compounds. Application of the TTC approach to cosmetic ingredients and impurities requires consideration of whether route-dependent differences in first-pass metabolism could affect the applicability of TTC values derived from oral data to the topical route. The physicochemical characteristics of the chemical and the pattern of cosmetic use would affect the long-term average internal dose that is compared with the relevant TTC value. Analysis has shown that the oral TTC values are valid for topical exposures and that the relationship between the external topical dose and the internal dose can be taken into account by conservative default adjustment factors. The TTC approach relates to systemic effects, and use of the proposed procedure would not provide an assessment of any local effects at the site of application. Overall the TTC approach provides a useful additional tool for the safety evaluation of cosmetic ingredients and impurities of known chemical structure in the absence of chemical-specific toxicology data. © 2007 Elsevier Ltd. All rights reserved.

Published
2007

4. Xenobiotic metabolism in human skin and 3D human skin reconstructs: A review

Author

Gibbs, S., Sandt, J.J.M. van de, Merk, H.F., Lockley, D.J., Pendlington, R.U., Pease, C.K., and TNO Kwaliteit van Leven

Subjects
1 chloro 2,4 dinitrobenzene, enzyme assay, esterase, triclosan, ex vivo study, environmental exposure, Cytochrome P450, Microarray, 4 aminophenol, alpha tocopherol, Western blotting, toxicokinetics, retinoic acid, phenylenediamine, 3D skin reconstructs, Biotransformation, Skin, integumentary system, skin cancer, messenger RNA, alcohol dehydrogenase, T 2 toxin, nicotinic acid ethyl ester, protein function, xenobiotic metabolism, IDO expression, triolein, propoxur, xenobiotic agent, immunohistochemistry, atrazine, 2 nitro 1,4 phenylenediamine, in vitro study, resorufin, review, hydrogen peroxide, retinol palmitate, Models, Biological, Xenobiotics, chemical carcinogenesis, aldehyde dehydrogenase, clobetasol propionate, skin inflammation, unindexed drug, Humans, skin sensitization, propranolol, human, toxic substance, Biology, protein expression, azo reductase, nonhuman, cinnamaldehyde, skin carcinogenesis, carnitine, occupational exposure, skin allergy, cinnamyl alcohol, skin toxicity, oxygenase, skin absorption, Northern blotting, In vitro skin absorption, Peptidases
Abstract

In this review, we discuss and compare studies of xenobiotic metabolism in both human skin and 3D human skin reconstructs. In comparison to the liver, the skin is a less studied organ in terms of characterising metabolic capability. While the skin forms the major protective barrier to environmental chemical exposure, it is also a potential target organ for adverse health effects. Occupational, accidental or intended-use exposure to toxic chemicals could result in acute or delayed injury to the skin (e.g. inflammation, allergy, cancer). Skin metabolism may play a role in the manifestation or amelioration of adverse effects via the topical route. Today, we have robust testing strategies to assess the potential for local skin toxicity of chemical exposure. Such methods (e.g. the local lymph node assay for assessing skin sensitisation; skin painting carcinogenicity studies) incorporate skin metabolism implicitly in the in vivo model system used. In light of recent European legislation (i.e. 7th Amendment to the Cosmetics Directive and Registration Evaluation and Authorisation of existing Chemicals (REACH)), non-animal approaches will be required to reduce and replace animal experiments for chemical risk assessment. It is expected that new models and approaches will need to account for skin metabolism explicitly, as the mechanisms of adverse effects in the skin are deconvoluted. 3D skin models have been proposed as a tool to use in new in vitro alternative approaches. In order to be able to use 3D skin models in this context, we need to understand their metabolic competency in relation to xenobiotic biotransformation and whether functional activity is representative of that seen in human skin. © 2007 Bentham Science Publishers Ltd.

Published
2007

5. Dermatokinetics of didecyldimethylammonium chloride and the influence of some commercial biocidal formulations on its dermal absorption in vitro

Author

Buist, H.E., Heer, C. de, Burgsteden, J.A. van, Sandt, J.J.M. van de, and TNO Kwaliteit van Leven

Subjects
Adult, Biomedical Research, Biocide, Aldehyde, Vehicle effects, Drug exposure, Chemistry, Pharmaceutical, Skin Absorption, Dermatokinetics, Dermal absorption, Stratum corneum, Administration, Cutaneous, Permeability, Repeated exposure, Drug distribution, Drug formulation, Aqueous solution, Humans, Tissue Distribution, Human tissue, Single exposure, Drug absorption, Cells, Cultured, Risk assessment, Priority journal, integumentary system, Correlation analysis, In vitro study, Skin barrier, Toxicokinetics, Quaternary ammonium chlorides, Quaternary Ammonium Compounds, Chemistry, Kinetics, Human cell, Biocides, Concentration (parameters), Drug penetration, Didecyldimethylammonium chloride, Skin permeability, Female, Epidermis, Human, Disinfectants
Abstract

The in vitro dermal absorption kinetics of didecyldimethylammonium chloride (DDAC) was studied after single and multiple exposure. In addition, the influence of biocidal formulations on the absorption of DDAC was investigated. Following dermal exposure to DDAC in aqueous solution, less than 0.5% of the applied dose reached the receptor fluid after 48 h. The apparent permeability coefficient (Kp) was 5 ± 1 cm/h × 10-6 for concentrations 11 mg/mL). However, the amount of DDAC reaching the receptor fluid remained low (

Published
2007

8. Prediction of in vivo embryotoxic effect levels with a combination of in vitro studies and PBPK modelling

Author

Verwei, M., Burgsteden, J.A. van, Krul, C.A.M., Sandt, J.J.M. van de, Freidig, A.P., and TNO Kwaliteit van Leven

Subjects
Embryonic stem cells, embryotoxicity, Biomedical Research, Cell Survival, embryo, Rodentia, animal cell, PBPK model, Animal Testing Alternatives, Models, Biological, Risk Assessment, methotrexate, fluorouracil, Cell Line, Alternative test method, Mice, 2 ethoxyethanol, Predictive Value of Tests, Toxicity Tests, retinoic acid, Animals, controlled study, Biology, mouse, nonhuman, Dose-Response Relationship, Drug, Stem Cells, 2 methoxyethanol, article, rodent, embryo development, prediction, embryonic stem cell, unclassified drug, Rats, Developmental toxicity, Teratogens, ethoxyacetic acid, priority journal, exposure, acetic acid derivative, computer model, methoxyacetic acid, metabolism
Abstract

The new EU legislations for chemicals (Registration, Evaluation and Authorization of Chemicals, REACH) and cosmetics (Seventh Amendment) stimulate the acceptance of in vitro and in silico approaches to test chemicals for their potential to cause reproductive effects. In the current study seven compounds with known in vivo developmental effects were tested in the embryonic stem cell test (EST). The EST correctly classified 5-fluorouracil, methotrexate, retinoic acid, 2-ethoxyacetic acid and 2-methoxyacetic acid for their in vivo embryotoxic potential. The toxicity of 2-methoxyethanol and 2-ethoxyethanol was underestimated due to a lack of metabolic capacity in the EST. This study further investigated the possibility to use in silico techniques to extrapolate in vitro effect concentrations determined in the EST to in vivo exposure levels. This approach was evaluated by comparing in silico predicted in vivo effect levels with effect levels measured in rodents. The in vivo effect levels of 2-methoxyethanol, 2-ethoxyethanol, methotrexate and retinoic acid were correctly predicted with in silico modelling. Contrary, in vivo embryotoxicity of 5-fluorouracil was overestimated following this approach. It is concluded that a combination of in vitro and in silico techniques appears to be a promising alternative test method for risk assessment of embryotoxic compounds. © 2006 Elsevier Ireland Ltd. All rights reserved.

Published
2006

9. An in vitro and in silico study on the flavonoid-mediated modulation of the transport of 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) through Caco-2 monolayers

Author

Schutte, M.E., Freidig, A.P., Sandt, J.J.M. van de, Alink, G.M., Rietjens, I.M.C.M., Groten, J.P., and TNO Kwaliteit van Leven

Subjects
Biomedical Research, Cell Membrane Permeability, flavone, robinetin, quercetin, taxifolin, Diffusion, myricetin, cell strain CACO 2, Tetrahydroisoquinolines, apical membrane, Intestinal Mucosa, drug effect, article, Imidazoles, 2 amino 1 methyl 6 phenylimidazo[4,5 b]pyridine, unclassified drug, Neoplasm Proteins, breast cancer resistance protein, Flavanones, Quinolines, ABC transporter, elacridar, Multidrug Resistance-Associated Proteins, naringenin, chrysoeriol, Biological Transport, Active, Models, Biological, Humans, flavonoid, controlled study, human, luteolin, Biology, Flavonoids, kaempferol, Dose-Response Relationship, Drug, human cell, In silico, P-Glycoprotein, Membrane Transport Proteins, Reproducibility of Results, Caco-2, multidrug resistance protein, morin, Kinetics, verlukast, Intestinal Absorption, Carcinogens, Acridines, ATP-Binding Cassette Transporters, computer model, Caco-2 Cells, Propionates, absorption, Heterocyclic amine
Abstract

The present study describes the effect of different flavonoids on the absorption of the pro-carcinogen PhIP through Caco-2 monolayers and the development of an in silico model describing this process taking into account passive diffusion and active transport of PhIP. Various flavonoids stimulated the apical to basolateral PhIP transport. Using the in silico model for flavone, kaempferol and chrysoeriol, the apparent Ki value for inhibition of the active transport to the apical side was estimated to be below 53 μM and for morin, robinetin and taxifolin between 164 and 268 μM. For myricetin, luteolin, naringenin and quercetin, the apparent Ki values were determined more accurately and amounted to 37.3, 12.2, 11.7 and 5.6 μM respectively. Additional experiments revealed that the apical to basolateral PhIP transport was also increased in the presence of a typical BCRP or MRP inhibitor with apparent Ki values in the same range as those of the flavonoids. This observation together with the fact that flavonoids are known to be inhibitors of MRPs and BCRP, corroborates that inhibition of these apical membrane transporters is involved in the flavonoid-mediated increased apical to basolateral PhIP transport. Based on the apparent Ki values obtained, it is concluded that the flavonols, at the levels present in the regular Western diet, are capable of stimulating the transport of PhIP through Caco-2 monolayers from the apical to the basolateral compartment. This points to flavonoid-mediated stimulation of the bioavailability of PhIP and, thus, a possible adverse effect of these supposed beneficial food ingredients. © 2006 Elsevier Inc. All rights reserved.

Published
2006

10. Effects of single and repeated exposure to biocidal active substances on the barrier function of the skin in vitro

Author

Buist, H.E., Sandt, J.J.M. van de, Burgsteden, J.A. van, Heer, C. de, and TNO Kwaliteit van Leven

Subjects
permethrin, Skin Physiology, Biomedical Research, Dermal absorption, skin penetration, sodium bromide, Carbon Radioisotopes, skin permeability, Biocidal active substances, Risk assessment, statistical significance, integumentary system, quantitative analysis, adult, article, titrimetry, Middle Aged, unclassified drug, Quaternary ammonium chlorides, Perfusion, quaternary ammonium derivative, female, priority journal, Benzalkonium Compounds, boric acid, Skin Absorption, water, Detergents, tebuconazole, Propoxur, Permeability, Repeated exposure, Humans, controlled study, human, Deuterium Oxide, intermethod comparison, Single exposure, skin function, Dose-Response Relationship, Drug, biocide, deltamethrin, piperonyl butoxide, dilution, Skin barrier, human tissue, Quaternary Ammonium Compounds, exposure, formaldehyde, ammonium derivative, Chemistry Safety
Abstract

The dermal route of exposure is important in worker exposure to biocidal products. Many biocidal active substances which are used on a daily basis may decrease the barrier function of the skin to a larger extent than current risk assessment practice addresses, due to possible skin effects of repeated exposure. The influence of repeated and single exposure to representative biocidal active substances on the skin barrier was investigated in vitro. The biocidal active substances selected were alkyldimethylbenzylammonium chloride (ADBAC), boric acid, deltamethrin, dimethyldidecylammonium chloride (DDAC), formaldehyde, permethrin, piperonyl butoxide, sodium bromide, and tebuconazole. Of these nine compounds, only the quaternary ammonium chlorides ADBAC and DDAC had a clear and consistent influence on skin permeability of the marker compounds tritiated water and [14C]propoxur. For these compounds, repeated exposure increased skin permeability more than single exposure. At high concentrations the difference between single and repeated exposure was quantitatively significant: repeated exposure to 300 mg/L ADBAC increased skin permeability two to threefold in comparison to single exposure. Therefore, single and repeated exposure to specific biocidal products may significantly increase skin permeability, especially when used undiluted. © 2005 Elsevier Inc. All rights reserved.

Published
2005

11. Skin irritation and corrosion

Author

Zuang, V., Alonso, M.A., Botham, P.A., Eskes, C., Fentem, J., Liebsch, M., Sandt, J.J.M. van de, and TNO Kwaliteit van Leven

Subjects
safety, in vitro study, Cell Survival, Endpoint Determination, Swine, Food and Chemical Risk Analysis, review, Quantitative Structure-Activity Relationship, Cosmetics, acute toxicity, Animal Testing Alternatives, skin irritation, toxicity testing, Organ Culture Techniques, cell growth, Animals, Humans, Animalia, human, European Union, reproducibility, cosmetic, cell viability, Skin, standardization, corrosion, model, explant, pH measurement, electric resistance, skin water loss, Skin Irritancy Tests, skin culture, animal testing alternative, priority journal, validation process, Consumer Product Safety, chemical structure, Irritants, Chemistry Safety
Published
2005

14. A pilot study to investigate effects of inulin on Caco-2 cells through in vitro metabolic fingerprinting

Author

Lamers, R.-J.A.N., Wessels, E.C.H.H., Sandt, J.J.M. van de, Venema, K., Schaafsma, G., Greef, J. van der, and Nesselrooij, J.H.J. van

Subjects
Laboratory test, Niacinamide, Magnetic Resonance Spectroscopy, Proline, Colon, Succinic Acid, Glutamic Acid, Niacin, Health status, In vivo study, Humans, Chemical analysis, Lactic Acid, Experimental model, 1H NMR spectroscopy, Analytical research, Nutrition, Pilot study, Cell metabolism, Glucose metabolism, Analysis of Variance, Alanine, Proton nuclear magnetic resonance, Nutrition Packaging, Inulin, In vitro study, Biochemical marker, Glucose, Metabolic fingerprinting, Human cell, Multivariate analysis, Fermentation, Cell strain CACO 2, Ketoglutaric Acids, Cell culture, Caco-2 Cells, Controlled study
Abstract

Metabolic fingerprints are novel measurement tools to evaluate the biochemical status of a living organism by using 1H NMR and multivariate data analysis (MVDA). In this way, a quick evaluation of changes in health or diseased state can be made, reflected in alterations of metabolic patterns. Normally, metabolic finger-printing is based on in vivo studies. These studies often represent a labor-intensive and expensive manner of investigation. In vitro studies are not hampered by these disadvantages, thus constituting an interesting alternative. In this research, results are presented of a pilot experiment in which metabolic fingerprinting was combined with an in vitro model. For this purpose, differentiated Caco-2 cells were exposed to inulin and its fermentative metabolites, both dissolved in culture medium. Cells were incubated for 0 or 48 h. Cell fractions were analyzed by NMR, then subsequently with MVDA. Differences in treatment provided detectable variations in the time of metabolic patterns of cell contents. Results indicated that glucose metabolism linked to glutamate was of major importance in the effects of inulin and its metabolites on Caco-2 cells under the conditions of our study. Metabolic fingerprinting in combination with an in vitro model appears to be a feasible technique with which to visualize metabolic patterns of cell contents and provides an efficient place for the generation of hypotheses about the metabolic pathways involved. In vitro metabolic fingerprinting may be of great benefit in the future for a better understanding of the relationship between nutrition and health.

Published
2003

16. Comparative in vitro-in vivo percutaneous penetration of the fungicide ortho-phenylphenol

Author

Cnubben, N.H.P., Elliott, G.R., Hakkert, B.C., Meuling, W.J.A., Sandt, J.J.M. van de, and TNO Voeding Centraal Instituut voor Voedingsonderzoek TNO

Subjects
Male, Swine, Fungicide, Sus scrofa, Wistar rat, Animal tissue, In vivo study, Skin absorption, Outbred strain, Biotransformation, Risk assessment, integumentary system, Membrane, Dermal penetration, Toxicokinetics, In Vitro, Skin culture, Health, Female, Thickness, Human, Adult, In vitro-in vivo comparison, Administration, Cutaneous, Permeability, Biphenyl derivative, Urinary excretion, Dose response, Animals, Outbred Strains, Animals, Humans, Comparative Study, Human tissue, Rats, Wistar, Support, Non-U.S. Gov't, Membranes, Dose-Response Relationship, Drug, Animal, Biphenyl Compounds, 2 hydroxybiphenyl, In vitro study, Intradermal drug administration, Nonhuman, Skin penetration, Fungicides, Industrial, Rats, 2-phenylphenol, Metabolism, Epidermis, Ortho-phenylphenol, Controlled study
Abstract

The validity of in vitro and in vivo methods for the prediction of percutaneous penetration in humans was assessed using the fungicide ortho-phenylphenol (OPP) (log Po/w 3.28, MW 170.8, solubility in water 0.7 g/L). In vivo studies were performed in rats and human volunteers, applying the test compound to the dorsal skin and the volar aspect of the forearm, respectively. In vitro studies were performed using static diffusion cells with viable full-thickness skin membranes (rat and human), nonviable epidermal membranes (rat and human), and a perfused pig ear model. For the purpose of conducting in vitro/in vivo comparisons, standardized experimental conditions were used with respect to dose (120 μg OPP/cm2), vehicle (60% aqueous ethanol), and exposure duration (4 h). In human volunteers, the potentially absorbed dose (amount applied minus dislogded) was 105 μg/cm2, while approximately 27% of the applied dose was excreted with urine within 48 h. In rats these values were 67 μg/cm2 and 40%, respectively. In vitro methods accurately predicted human in vivo percutaneous absorption of OPP on the basis of the potential absorbed dose. With respect to the other parameters studied (amount systemically available, maximal flux), considerable differences were observed between the various in vitro models. In viable full-thickness skin membranes, the amount systemically available and the potentially absorbed dose correlated reasonably well with the human in vivo situation. In contrast the Kp/maximal flux considerably underestimated the human in vivo situation. Although epidermal membranes overestimated human in vivo data, the species differences observed in vivo were reflected correctly in this model. The data generated in the perfused pig ear model were generally intermediate between viable skin membranes and epidermal membranes. © 2002 Elsevier Science (USA).

Published
2002

17. Monolayers of IEC-18 cells as an in vitro model for screening the passive transcellular and paracellular transport across the intestinal barrier: Comparison of active and passive transport with the human colon carcinoma Caco-2 cell line

Author

Versantvoort, C.H.M., Ondrewater, R.C.A., Duizer, E., Sandt, J.J.M. van de, Gilde, A.J., Groten, J.P., and TNO Voeding

Subjects
verapamil, drug transport, H+-di/tripeptide carrier, IEC-18, in vitro study, Intestinal cell lines, glutathione derivative, salicylic acid, Carrier-mediated transport, MRP, macrogol 4000, animal cell, colon carcinoma, digestive system, vincristine, glycoprotein P, ion transport, cell transport, cell strain CACO 2, glucose derivative, controlled study, rat, hydrocortisone, propranolol, human, protein expression, rhodamine 123, cell membrane permeability, model, nonhuman, glycylsarcosine, human cell, screening, P-Glycoprotein, mannitol, article, Caco-2, multidrug resistance protein, acetylsalicylic acid, dinitrophenylglutathione, calcein, unclassified drug, carrier protein, probenecid, priority journal, testosterone, tissues, methylglucose
Abstract

Purpose: previous studies have shown that the rat small intestinal cell line IEC-18 provides a size-selective barrier for paracellularly transported hydrophilic macromolecules. In order to determine the utility of IEC-18 cells as an in vitro model to screen the passive paracellular and transcellular components of the intestinal transport of nutrients and drugs, we have now examined the transport of GlySar (H+-coupled di/tripeptide carrier), O-methyl-D-glucose (glucose carrier), vincristine and rhodamine 123 (P-glycoprotein), and calcein and DNPSG (MRPs) and the bidirectional transport of paracellularly transported compounds. Transport of these compounds across the filter grown IEC-18 cells was compared with transport across the human colon carcinoma Caco-2 cells. Results: in IEC-18 cells, transepithelial transport of GlySar and methylglucose was as fast as the transport of mannitol, which is transported passively via the paracellular route. Whereas in Caco-2 cells, mannitol transport was much slower than the transport of GlySar and methylglucose. In contrast to Caco-2 cells, no H+-coupled transport of GlySar could be measured in IEC-18 cells. P-Glycoprotein-mediated transport was characterised in Caco-2 cells by an enhanced transport of vincristine and rhodamine 123 in the basolateral to apical direction and by the inhibition of this transport by verapamil. In IEC-18 cells, permeability of vincristine and rhodamine 123 was similar in both directions and verapamil had no effect on the transport of these compounds. Both IEC-18 and Caco-2 cells efflux the organic anions calcein and DNPSG to the apical and basolateral compartments, and this efflux could be inhibited by probenecid. Conclusions: in conclusion, no carrier-mediated transport of GlySar, methylglucose, vincristine and rhodamine 123 could be determined in IEC-18 cells in contrast to Caco-2 cells. However, both IEC-18 and Caco-2 cells showed MRP-mediated eflux system(s) in the apical and basolateral membrane. Monolayers of IEC-18 cells appear to be more suitable than monolayers of Caco-2 cells as an in vitro system to screen the passive component of the intestinal transport in a deconvoluted screening regimen, where passive transport is represented by the IEC-18 monolayer permeability and active transport is represented by monolayers of cells expressing the transport proteins heterologously. © 2002 Elsevier Science B.V. All rights reserved.

Published
2002

19. Comparative in vitro-in vivo percutaneous absorption of the pesticide propoxur

Author

Sandt, J.J.M. van de, Meuling, W.J.A., Elliott, G.R., Cnubben, N.H.P., Hakkert, B.C., and Centraal Instituut voor Voedingsonderzoek TNO

Subjects
Male, Insecticides, Blood sampling, Swine, Skin Absorption, Sus scrofa, Perfused-pig-ear model, Viable skin and epidermal membranes, Urinalysis, Propoxur, Animal Testing Alternatives, Animal tissue, Pest control, Carbon 14, Species Specificity, In vitro/in vivo comparisons, Animals, Humans, Animalia, Animal model, Human tissue, Ear, External, Rats, Wistar, Nutrition, Ear, Environmental exposure, Nonhuman, Normal human, Rats, Pesticide, Perfusion, Human experiment, Models, Animal, Rat, Epidermis, Human, Isotope labeling
Abstract

In vitro and in vivo skin absorption of the pesticide propoxur (2-isopropoxyphenyl N-methyl carbamate, commercially Baygon(TM) and Unden(TM); log Po/w 1.56, MW 209.2) was investigated. In vivo studies were performed in rats and human volunteers, applying the test compound to the dorsal skin and the volar aspect of the forearm, respectively. In vitro experiments were carried out in static diffusion cells using viable full-thickness skin membranes (rat and human), non-viable epidermal membranes (rat and human) and a perfused-pig-ear model. Percutaneous penetration of propoxur in human volunteers was measured by analysis of its metabolite (2-isopropoxyphenol) in blood and urine; in all other studies radiolabeled propoxur ([ring-U-14C]propoxur) was used. In order to allow for direct comparison, experimental conditions were standardized with respect to dose (150 μg propoxur per cm2), vehicle (60% aqueous ethanol) and exposure time (4 h). In human volunteers, it was found that approximately 6% of the applied dose was excreted via the urine after 24 h, while the potential absorbed dose (amount applied minus amount washed off) was 23 μg/cm2. In rats these values were 21% and 88 μg/cm2, respectively. Data obtained in vitro were almost always higher than those obtained in human volunteers. The most accurate in vitro prediction of the human in vivo percutaneous absorption of propoxur was obtained on the basis of the potential absorbed dose. The absorbed dose and the maximal flux in viable full-thickness skin membranes correlated reasonably well with the human in vivo situation (maximal overestimation by a factor of 3). Epidermal membranes overestimated the human in vivo data up to a factor of 8, but the species-differences observed in vivo were reflected correctly in this model. The data generated in the perfused-pig-ear model were generally intermediate between viable skin membranes and epidermal membranes. Chemicals/CAS: Insecticides; Propoxur, 114-26-1

Published
2000

23. Relevance of animal studies in regulatory toxicology : current approaches and future opportunities

Author

Sandt, J.J.M. van de, Feron, V.J., and Instituut CIVO-Toxicologie en Voeding TNO

Subjects
Toxicology, Regulatory toxicology, Animal testing, Risk assessment
Abstract

With rapidly increasing knowledge of toxicological processes, the scientific value and relevance of toxicity studies for risk assessment must be re-evaluated. In this paper, it is proposed that the rigid risk evaluation currently required should be replaced by a more flexible, case-by-case approach, in order to increase the relevance of each animal test conducted. The development of new types of toxicity studies and their application in risk evaluation are also described.

Published
1996

26. Proceedings of the Netherlands Society of Toxicology Annual Meeting, Utrecht University, 13 January 1994 : 1. trends in toxicological pathology; 2. posters

Author

Nesselrooij, J.H.J. van, Kuper, C.F., Feron, V.J., Berg, K.J. van den, Hoogendijk, E.M.G., Kulig, B.M., Cassee, F.R., Groten, J.P., Roggeband, R., Berg, P.T.M. van den, Steenwinkel, M-J.S.T., Delft, J.H.M. van, Baan, R.A., Rompelberg, J.J.M., Heuvel, P.D. van den, Bruijntjes-Rozier, T.C.D.M., Leeman, R.R., Verhagen, H., Sandt, J.J.M. van de, Bos, T.A., Rutten, A.A.J.J.L., Sloot, W.N., Gramsbergen, J.B.P., Velthuis-te Wierik, E.J.M., Vogel, N. de, Wolterbeek, A.P.M., Schoevers, E.J., and Moorsel, C.J.A. van

Subjects
Nutrition
Published
1994

27. Assessment of some critical factors in the freezing technique for the cryopreservation of precision-cut rat liver slices

Author

Maas, W.J.M., Graaf, I.A.M. de, Schoen, E.D., Koster, H.J., Sandt, J.J.M. van de, Groten, J.P., Maas, W.J.M., Graaf, I.A.M. de, Schoen, E.D., Koster, H.J., Sandt, J.J.M. van de, and Groten, J.P.

Abstract

A number of studies on the cryopreservation of precision-cut liver slices using various techniques have been reported. However, the identification of important factors that determine cell viability following cryopreservation is difficult because of large differences between the various methods published. The aim of this study was to evaluate some important factors in the freezing process in an effort to find an optimized approach to the cryopreservation of precision-cut liver slices. A comparative study of a slow and a fast freezing technique was carried out to establish any differences in tissue viability for a number of endpoints. Both freezing techniques aim at the prevention of intracellular ice formation, which is thought to be the main cause of cell death after cryopreservation. Subsequently, critical variables in the freezing process were studied more closely in order to explain the differences in viability found in the two methods in the first study. For this purpose, a full factorial experimental design was used with 16 experimental groups, allowing a number of variables to be studied at different levels in one single experiment. It is demonstrated that ATP and K content and histomorphology are sensitive parameters for evaluating slice viability after cryopreservation. Subsequently, it is shown that freezing rate and the cryopreservation medium largely determine the residual viability of liver slices after cryopreservation and subsequent culturing. It is concluded that a cryopreservation protocol with a fast freezing step and using William's Medium E as cryopreservation medium was the most promising approach to successful freezing of rat liver slices of those tested in this study. (C) Academic Press. Chemicals/CAS: Adenosine Triphosphate, 56-65-5; Dinitrochlorobenzene, 97-00-7; Glutathione Transferase, EC 2.5.1.18; Glutathione, 70-18-8; L-Lactate Dehydrogenase, EC 1.1.1.27; Potassium, 7440-09-7; Proteins; Testosterone, 58-22-0; Urea, 57-13-6

Published
2000

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