In Vivo Effect Of Epilobium Hirsutum L. And Viscum Album L. On Protein And Mrna Expressions Of Rat Liver Vitamin D3 Metabolizing Cyp24a1 And Cyp27b1 Enzymes

Sever, Melike

01 September 2012

Epilobium hirsutum L. (Onagraceae) is a flowering, tall and perennial plant and native to Eurasia. It shows analgesic, anti-microbial and anti-proliferative activity, and it is used in our country as an alternative medicine. The pharmacological effect of Epilobium hirsutum L. could be explained by the presence of polyphenolics including steroids, tannins and flavonoids in the aerial parts. Viscum album L. (Loranthaceae) is a shrub that grows as an epiphyte on the branches of deciduous trees. It involves in the enhancement of macrophage phagocytic and cytotoxic mediated abilities as well as the strengthening the immune system. CYP24A1 and CYP27B1 are members of cytochrome P450 superfamily and the most important enzymes involved in the metabolism of vitamin D3. CYP27B1 and CYP24A1 are mitochondrial enzymes and also known as 25-hydroxyvitamin D3 1alpha-hydroxylase and 24-hydroxylase, respectively. CYP24A1 involves in 24-hydroxylation of 25-OH-D3 and 1,25-(OH)2D3 which is required for the catabolism of vitamin D3 compounds while CYP27B1 involves in 1&alpha / -hydroxylation of 25-OH-D3 into 1,25-(OH)2D3. In this study, in vivo effects of Epilobium hirsutum and Viscum album (subspecies growing on pine-trees-subsp. austriacum (Wiesb.) Vollmann) on rat liver CYP24A1 and CYP27B1 mRNA and protein expressions were investigated. To achieve this goal, 37.5 mg water extract of Epilobium hirsutum L./kg body weight/day was intraperitoneally injected to male rats for 9 days. To study the effect of Viscum album L., 10 mg water extract of Viscum album L./kg body weight/day was injected with the same conditions. After decapitation, livers were removed and S1.5 fractions were prepared. Effects of Epilobium hirsutum L. and Viscum album L. on rat liver mRNA and protein expressions were analyzed by qRT-PCR and western blotting, respectively. Epilobium hirsutum L. extract caused 31% and 18% decrease in rat liver CYP24A1 (p&lt / 0.0001) and CYP27B1 (p&lt / 0.05) protein expressions, respectively. The effect of Epilobium hirsutum L. on mRNA expression of CYP24A1 could not be observed, because CYP24A1 mRNA was almost undetectable in liver. Injection of Epilobium hirsutum L. to rats caused 2.7 fold increase in mRNA expression of CYP27B1 with respect to controls and normalized with GAPDH (Glyceraldehyde 3-phosphate dehydrogenase) expression as an internal reference (p&lt / 0.005). Viscum album L. caused 17% decrease in CYP24A1 protein expression (p&lt / 0.05). When rats injected with plant extract of Viscum album L., 18% decrease in CYP27B1 protein expression was observed (p&lt / 0.05). The effect of Viscum album L. on mRNA expression of CYP24A1 could not be observed since CYP24A1 mRNA was almost undetectable in liver. Injection of Viscum album L. to rats caused 3.8 fold increase in mRNA expression of CYP27B1 with respect to controls and normalized with GAPDH (Glyceraldehyde 3-phosphate dehydrogenase) expression as an internal reference (p&lt / 0.005). In conclusion, vitamin D3 metabolism may be affected by medicinal plants Epilobium hirsutum L. and Viscum album L. due to the changes in mRNA and protein expressions of CYP24A1 and CYP27B1 enzymes.

QD Biochemistry 415-436

Effect Of Medicinal Plants Epilobium Hirsutum L. And Viscum Album L. On Rat Liver Flavin-containing Monooxygenase Activity And Expression

Celebioglu, Hasan Ufuk

01 July 2012

Epilobium hirsutum L. (Onagraceae), a medicinal plant known as hairy willow herb, has been used by people all around the world for treatment or prevention of inflammation, adenoma, rectal bleeding, menstrual disorders, constipates, and prostate. It contains polyphenolics including steroids, tannins such as gallic, ellagic, and p-coumaric acids and flavonoids such as myricetin, isomyricetin, and quercetin. Polyphenols have been known for their multiple biological health benefits, including antioxidant activities. Viscum album L. (Loranthaceae), a species of mistletoe, contains lectins, polypeptides, mucilage, sugar alcohols, flavonoids, lignans, triterpenes, and phenylallyl alcohols. The leaves and twigs of Viscum album L., taken as tea, have been traditionally used for hypertension, stomachache, diarrhea, diabetes, dysuria and also as analgesic and cardiotonic agent in Anatolia, Turkey. In addition, in Europe, sterile extracts of Viscum album L. are among the most common herbal extracts applied in cancer treatment and have been used as prescription drugs, while in US, considered as dietary supplement. Flavin-containing monooxygenases are FAD-containing phase I enzymes responsible for the oxidation of wide-range of nucleophilic nitrogen, sulfur, phosphorus, and selenium heteroatom-containing drugs such as tamoxifen, v methimazole and imipramine, pesticides, neurotoxins, and other chemicals using NADPH as cofactor. The aim of this study was to determine the in vivo effects of Epilobium hirsutum L. and Viscum album L. (subspecies growing on pine trees-subsp. austriacum (Wiesb.) Vollmann) on FMO activity, mRNA and protein expressions in rat liver. The water extracts of Epilobium hirsutum L. (37.5 mg/kg body weight) and Viscum album L. (10 mg/kg body weight) were injected intraperitonally (i.p) into Wistar albino rats for 9 consecutive days. Following the decapitation, the livers were removed and microsomal fractions were prepared by differential centrifugation. Rat liver microsomal FMO activity using methimazole as substrate, mRNA expression by quantitative Real-Time PCR, and protein expression by Western Blot were determined. The results showed that water extract of Epilobium hirsutum L. has no significant effect on FMO activity / however, it decreased significantly (p&lt / 0.05) FMO3 protein and mRNA expression 27.71% and 1.41 fold, respectively, compared as controls. Water extract of Viscum album L. decreased mRNA (2.56 fold), and protein expressions (27.66%) as well as enzyme activity (19%) of FMO with respect to controls. In conclusion, our current data suggest that the metabolism of xenobiotics including drug molecules by FMO-catalyzed reactions may be altered due to the changes in FMO expression and activity by medicinal plants Epilobium hirsutum L. and Viscum album L.

QH General Biology 301-705

Estudo do metabolismo in vitro da caramboxina / In vitro metabolism study of caramboxin

Pereira, Pâmela Rodrigues Rosa

23 April 2018

A carambola (Avehrroa carambola L.) é uma rica fonte de vitaminas, sais minerais e antioxidantes. Seu formato de estrela, quando seccionada transversalmente, torna essa fruta muito valorizada na culinária. Contudo, nos últimos anos têm sido relatados alguns casos de intoxicação após ingestão desta fruta, relacionados, principalmente, a pacientes nefropatas. Sintomas como soluços intratáveis, agitação, confusão mental, vômito, convulsão e morte, decorrentes do status epilepticus (SE), foram descritos na maioria dos casos de intoxicação. Este quadro pode estar associado a presença de uma neurotoxina, caramboxina (CBX), que tem a capacidade de inibir o sistema de condução GABAérgico, além de atuar sobre os principais receptores glutamatérgicos, levando a ativação do mecanismo de excitotoxicidade neuronal. Há diversos modelos experimentais que buscam estudar os mecanismos ligados ao aparecimento do SE. Uma vez que a caramboxina pode estar relacionada com a indução do SE, estudos para melhor compreender seu metabolismo podem contribuir para sua possível aplicação em modelos experimentais de epilepsia. Portanto, este trabalho teve como objetivo estudar o metabolismo in vitro da caramboxina, utilizando microssomas hepáticos e modelo de oxidação biomimética. Um extrato metanólico foi preparado na proporção de 1:1 (m/v) e em seguida fracionado em coluna contendo sephadex LH-20. A fração contendo CBX foi submetida a cromatografia líquida de alta eficiência (HPLC) para seu isolamento. Essa metodologia permitiu um rendimento superior ao descrito na literatura, permitindo que esta neurotoxina possa ser futuramente avaliada em modelos experimentais in vivo de epilepsia. Parte da CBX isolada foi avaliada em ensaios de metabolismo in vitro com microssomas hepáticos de ratos, no entanto, não foi observado formação de produtos de oxidação nas condições empregadas, o que pode sugerir que não ocorra metabolismo de fase I da CBX, corroborando com a proposta de rápida eliminação pela urina por pessoas saudáveis que ingerem carambola. A avaliação da oxidação da CBX por modelo biomimético, utilizando catalizador de Jacobsen e oxidante e iodosilbenzeno (PhIO), apresentou a formação de um metabólito, o qual poderá ser posteriormente utilizado nos estudos de mecanismo de ação da CBX / The Star fruit (Averrhoa carambola L.) is a good source of vitamins, minerals and antioxidants. Its star shape, when cross-sectioned, makes this fruit highly prized in cooking. However, in the last years some cases of intoxication after ingestion of this fruit, mainly related to nephropathy patients, have been reported. Symptoms such as intractable hiccups, agitation, mental confusion, vomiting, convulsion, and death, due to status epilepticus (SE), have been described in most cases of intoxication. These clinical conditions may be associated with the presence of a neurotoxin, caramboxine (CBX), which has the capacity to inhibit the GABAergic conduction system, in addition to acting on the main glutamatergic receptors, leading to activation of the mechanism of neuronal excitotoxicity. Several experimental models aim to study the mechanisms related to the appearance of the SE. Since caramboxin may be related to the induction of ES, studies to better understand its metabolism may contribute to its possible application in experimental models of epilepsy. Therefore, this work aimed to study the in vitro metabolism of caramboxin, using hepatic microsomes and biomimetic oxidation model. A methanolic extract was prepared in the ratio of 1: 1 (m / v) and then fractionated on a column containing LH-20 sephadex. The fraction containing CBX was submitted to high performance liquid chromatography (HPLC) for its isolation. This methodology allowed a higher yield than described in the literature, allowing this neurotoxin to be evaluated in vivo in experimental models of epilepsy. Part of the isolated CBX was evaluated in in vitro metabolism assays with hepatic microsomes of rats, however, no oxidation product formation was observed under the conditions employed, which may suggest that CBX phase I metabolism does not occur, corroborating with a proposal for rapid urinary elimination by healthy people who eat carambola. The evaluation of CBX oxidation by biomimetic model, using Jacobsen\'s catalyst and oxidant and iodosilbenzene (PhIO), presented the formation of a metabolite, which could be used in future CBX action mechanism studies.

In vivo Optical Imaging zum Nachweis der Leberrepopulation nach Konditionierung der Empfängerleber und Hepatozytentransplantation / Noninvasive Imaging of Liver Repopulation Following Hepatocyte Transplantation

Seif Amir Hosseini, Ali

18 June 2014

No description available.

610

In vivo optical imaging

Near infrared dye Cy5.5

Irradiation

Rat liver repopulation

DPPIV

Biotransformação de corantes dispersos do tipo azo pela ação de enzimas redutoras e oxidação fotoeletrocatalítica após pré-concentração por MIP / Biotransformation of disperse azo dyes by the action of reducing enzymes and photoelectrocatalytic oxidation after preconcentration by MIP

Franco, Jefferson Honorio [UNESP]

21 November 2016

Submitted by JEFFERSON HONORIO FRANCO null (jeffersonhfranco@gmail.com) on 2016-12-01T15:16:17Z No. of bitstreams: 1 TESE FINAL-IMPRESSÃO CD.pdf: 4568825 bytes, checksum: 666b30b163102c69eb93110502678419 (MD5) / Approved for entry into archive by Felipe Augusto Arakaki (arakaki@reitoria.unesp.br) on 2016-12-05T12:50:59Z (GMT) No. of bitstreams: 1 franco_jh_dr_araiq_par.pdf: 1149871 bytes, checksum: 4c942fc016c94499d690f6474dda7078 (MD5) / Made available in DSpace on 2016-12-05T12:50:59Z (GMT). No. of bitstreams: 1 franco_jh_dr_araiq_par.pdf: 1149871 bytes, checksum: 4c942fc016c94499d690f6474dda7078 (MD5) Previous issue date: 2016-11-21 / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Corantes sintéticos do tipo azo têm sido um assunto de grande preocupação ambiental devido ao potencial genotóxico e mutagênico dos produtos de biotransformação. Deste modo, nos últimos anos a consequência da ingestão destes corantes presentes na agua potável servida à população é discutida por diversos autores. Este estudo avalia a ação de microssomas de fígado de rato, enzimas redutoras produzidas pela bactéria Escherichia coli (E. coli) e nitroredutase imobilizada na biotransformação de três corantes dispersos que possuem grupos azo, Disperse Red 73 (DR 73), Disperse Red 78 (DR 78) e Disperse Red 167 (DR 167). A técnica de Espectrofotometria de absorção molecular na região do Uv- visível, Cromatografia Líquida de Alta Eficiência com detector de arranjo de diodos (CLAE-DAD) e Cromatografia líquida acoplada à espectrometria de massas (LC-MS/MS) foram técnicas usadas para identificar os principais produtos gerados após os processos de degradação dos corantes. Polímeros de impressão molecular magnéticos (MMIPs) foram investigados usando reações de polimerização por precipitação para pré-concentração do corante DR 73, juntamente com a degradação por fotoeletrocatálise e subsequente análise dos produtos por LC-MS/MS. Os estudos in vitro do metabolismo de biotransformação dos corantes têxteis com microssoma de fígado de rato mostraram que as reações ocorreram preferencialmente no grupo azo e nitro dos corantes, indicando a redução destes grupos pelas enzimas do citocromo P-450. Foram obtidos dois produtos de degradação para cada corante após reação com a bactéria E. coli; o corante DR 73 originou os produtos 3-((4-aminofenil)(etil)amino)propanitrila e 4-nitroanilina, os produtos 3-((4-aminofenil)(etil)amino)propanitrila e 2-cloro-4-nitroanilina foram obtidos após reação com o corante DR78 e o DR 167 originou dimetil 3,3`-((3-acetamido-4aminofenil)azanediyl)dipropanoato e 2-cloro-4-nitroanilina, indicando a clivagem do grupo azo, possivelmente, pela enzima azoredutase, produzida pela bacteria. A enzima nitroredutase, imobilizada em partículas magnéticas modificadas com tosil, mostrou que a redução dos corantes ocorreu preferencialmente no grupo nitro, enquanto que a enzima livre no meio reacional resultou em mais de um produto de biotransformação para cada corante, atuando em mais de um sítio da molécula, comprovando a eficácia da imobilização enzimática para estudos de biotransformação e formação de produtos majoritários. A mutagenicidade dos corantes foi avaliado pelo ensaio de Salmonella/microssoma realizado nas estirpes TA 98 e TA 100, com e sem S9. De acordo com este ensaio, DR 73 foi o mais mutagênico. O MMIP para o corante DR 73 apresentou excelentes valores de religação (16 mg g−1 e 6 mg g−1, para MMIP e MNIP, respectivamente) indicando que o polímero molecularmente impresso formou cavidades específicas para retenção do corante. Através dos resultados obtidos por LCMS/MS, observou-se 100% de degradação do corante em apenas 60 min de tratamento via fotoeletrocatálise para soluções mais diluidas do mesmo, comprovando a eficiência da técnica na degradação de poluentes. Sendo assim, estes resultados sugerem que o MMIP mostrou uma excelente especificidade e seletividade para o corante DR 73 e uma técnica promissora na captação de corantes mutagênicos de águas superficiais, com grande potencial de aplicação e exploração na pré-concentração antes do tratamento. Além disso, a redução destes corantes por sistemas biológicos representa uma grande preocupação ambiental devido ao aumento da genotoxicidade para os seres vivos, em especial a seres humanos, produzindo compostos nocivos, tais como aminas condenadas pela Agência Internacional de Pesquisa sobre o Câncer. / Synthetic azo dyes have been a matter of great concern due to the genotoxic and mutagenic potential of the products originating from azo dye biotransformation. Thus, in recent years the result of the intake of these dyes present in drinking water supplied to a population is discussed by several authors. This work evaluates the action of rat liver microsomes, reducing enzymes produced by the Escherichia coli (E. coli) and nitroreductase immobilized on biotransformation of three disperse dyes bearing azo groups, namely Disperse Red 73 (DR 73), Disperse Red 78 (DR 78), and Disperse Red 167 (DR 167). UV-Vis spectrophotometry, high-performance liquid chromatography with diode array detector (HPLC-DAD), and liquid chromatography coupled to mass spectrometry (LC-MS/MS) were techniques used to identify the main products generated after the process degradation of dyes. Magnetic molecularly imprinted polymers (MMIPs) were investigated using precipitation polymerization reactions for preconcentration of the dye DR 73, together with the photoelectrocatalysis degradation and subsequent analysis of the products by LC-MS/MS. In vitro studies of biotransformation metabolism of textile dyes with rat liver microsome showed that the reactions occur preferentially in the group of azo and nitro dyes, indicating the reduction of these groups by enzymes of the cytochrome P-450. There were obtained two degradation products for each dye after reaction with E. coli; the dye DR 73 gave the product 3 - ((4-aminophenyl) (ethyl) amino) propanitrila and 4-nitroaniline, the product 3 - ((4-aminophenyl) (ethyl) amino) propanitrila and 2-chloro-4-nitroaniline were obtained after reaction with the dye DR78 and DR 167 gave 3,3`-dimethyl-((3-acetamido-4-aminophenyl) azanediyl) dipropanoato and 2chloro-4-nitroaniline; indicating cleavage of the azo group, possibly by azoredutase enzyme produced by bacteria. The nitroreductase enzyme immobilized on modified magnetic particles Tosyl showed that the reduction of dyes occurred preferentially in the nitro group, while the free enzyme in the reaction medium resulted in more than a product of biotransformation for each dye, acting in more than one site of the molecule, proving the efficacy of enzyme immobilization for biotransformation studies and formation of major products. The mutagenicity of the dyes was evaluated by the Salmonella/microsome assay performed on strains TA 98 and TA 100, with and without S9. According to this assay, DR 73 was the most mutagenic. The MMIP to the dye DR 73 showed excellent rebinding values (16 mg g−1 and 6 mg g−1, for MMIP and MNIP, respectively) indicating that the molecularly imprinted polymer formed cavities for specific dye retention. Through the results obtained by LC-MS/MS, it was observed 100% dye degradation in 60 min treatment for more dilute solutions thereof, proving the efficiency of technique in pollutant degradation. Thus, these results suggest that MMIP showed excellent specificity and selectivity for the dye DR 73 and a promising technique in capturing mutagenic dyes of surface water, with great potential for application and operation in the pre-concentration before treatment. Moreover, the reduction of these dyes by biological systems is a major environmental concern due to increased of genotoxicity for living beings, especially humans, producing harmful compounds, such as condemned amines by the International Agency for Research on Cancer.

Corantes e tingimento

Toxicologia ambiental

Escherichia coli

Biotransformação (Metabolismo)

Espectrometria de massa

Disperse dyes

Escherichia coli

Nitroreductase

Rat liver microssomal

Molecularly imprinted polymers

LC-MS/MS

A Heme Responsive Protein Is Involved In The Regulation Of CYP2B1/B2 Gene Transcription In Rat Liver

Sultana, Shahana

12 1900

No description available.

Rat Liver

Gene Transcription - Protein

Heme Biosynsthesis

Heme

Gene Tranascription - Regulation

CYP2B1/B2 Gene

CYP2B1

CYP2B2

Phenobarbitone (PB)

Cytochrome P-450

Biochemical Genetics

Mitochondriální respirace u chladově adaptovaných potkanů. Srovnání tkání. / Mitochondrial respiration at cold acclimated rats. Comparison of tissues.

Flégrová, Eliška

January 2016

Acclimation to cold or hardening is known for many decades through its beneficial effects on human health. In contrast, sudden exposure to cold, cold shock, is a great risk of cerebral and cardiac injury, especially in the elderly. There is very little published data on the cellular and molecular mechanisms induced by cold adaptation in heart and brain. The aim of this work was to describe and compare different properties heart, liver, brain and brown adipose tissue mitochondria of rats housed at 25 ± 1 řC and at mild cold (9 ± 1 řC, 5 weeks). The high-resolution oxygraphy, spectrophotometry and Western blotting analyses were used. We found differences in the respiratory control between the heart and liver. Cold acclimation decreased activity of the Krebs cycle enzymes. Fatty acid contribution to the respiration reached the maximum in brown fat and the minimum in the hippocampus. However, further study is necessary.

A proteomic approach to the identification of cytochrome P450 isoforms in male and female rat liver by nanoscale liquid chromatography-electrospray ionization-tandem mass spectrometry.

Nisar, S., Lane, C.S., Wilderspin, A.F., Welham, K.J., Griffiths, W.J., Patterson, Laurence H.

January 2004

No / Nanoscale reversed-phase liquid chromatography (LC) combined with electrospray ionization-tandem mass spectrometry (ESI-MS/MS) has been used as a method for the direct identification of multiple cytochrome P450 (P450) isoforms found in male and female rat liver. In this targeted proteomic approach, rat liver microsomes were subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by in-gel tryptic digestion of the proteins present in the 48- to 62-kDa bands. The resultant peptides were extracted and analyzed by LC-ESI-MS/MS. P450 identifications were made by searching the MS/MS data against a rat protein database containing 21,576 entries including 47 P450s using Sequest software (Thermo Electron, Hemel Hempstead, UK). Twenty-four P450 isoforms from the subfamilies 1A, 2A, 2B, 2C, 2D, 2E, 3A, 4A, 4F, CYP17, and CYP19 were positively identified in rat liver.

Cytochrome P450 (P450) isoforms

Rat liver

Cytochrome identification

Polarity and Endocytic Traffic in the Mammalian Cell

Bugyei, Francis Kyei

02 July 2014

No description available.

Biophysics

Biology

Molecular Biology

Cellular Biology

endocytosis

pinocytosis

macropinocytosis

haptotactic gradient

fluorescent microscopy

image processing

PMA, protein kinase C

filopodia

Cdc42

Cell Polarity

Cell traffic

Rat liver cells

Rat tracheal epithelial cells

haptotaxis

Développement et validation de modèles in silico pour évaluer la variation de clairance hépatique des médicaments fortement liés aux protéines plasmatiques

Bteich, Michel

11 1900

La prédiction des paramètres pharmacocinétiques/toxicocinétiques (PK/TK), tels que la clairance intrinsèque (CLint) et la clairance hépatique (CLh) des médicaments, demeure un défi majeur en modélisation quantitative. Selon « l’hypothèse du médicament libre », seul le médicament libre peut traverser la membrane plasmique et la CLh de ce médicament est calculée en fonction de sa fraction libre (fup). Néanmoins, la captation hépatique facilitée par l’albumine (ALB) représente clairement une violation de « l’hypothèse du médicament libre ». Cette captation hépatique se base sur la possibilité que le complexe ALB-médicament puisse assurer un apport supplémentaire en médicament aux hépatocytes. Ainsi, cela pourrait expliquer en grande partie les sous-prédictions observées de CLh. Par ailleurs, certains médicaments peuvent se lier fortement à plusieurs protéines plasmatiques telles que l’ALB et l’alpha-1-glycoprotéine acide (AGP). Ainsi, la forte liaison d’un même médicament à l’ALB, à l’AGP, ou aux deux, pourrait avoir des répercussions bien distinctes sur la prédiction de ces paramètres PK/TK. Cependant, aucune étude n’a été faite pour simuler la différence entre leurs effets. L’objectif principal de cette thèse est donc d’évaluer (avec plus d’exactitude et de précision), pour une série de médicaments, en condition in vivo (ou in situ), ces répercussions en présence des deux protéines plasmatiques, conjointement ou séparément. En outre, il est indispensable de vérifier si une approche générique en modélisation peut être appliquée. Cette thèse est répartie en trois objectifs spécifiques. Le premier est de proposer un arbre décisionnel pour faciliter la sélection des approches prédictives appropriées de CLhin vivo pour des médicaments ayant des caractéristiques différentes. Le second est d’évaluer les répercussions de fortes liaisons aux deux protéines plasmatiques ALB et AGP sur la CLh de deux xénobiotiques choisis (perampanel (PER) et fluoxétine (FLU)) ; ces médicaments ont de fortes affinités pour les deux protéines et un métabolisme exclusif (ou prédominant) dans le foie. Et, le dernier est de développer et valider un nouveau modèle prédictif de CLh pour les xénobiotiques ayant le potentiel de se lier fortement dans le plasma, à l’ALB ainsi qu’à l’AGP. Dans un premier temps, des données in vitro rapportées chez l’humain ont été colligées pour 19 médicaments (substrats des transporteurs OAT2 et OATP1B1), et ont été ensuite utilisées dans six modèles d’extrapolation in vitro-in vivo (IVIVE) pour prédire lesdits paramètres. Après une comparaison statistique, les résultats ont montré que l’approche 2 (c’est-à-dire « fup-adjusted model ») qui se base sur la captation hépatique facilitée par l’ALB, avait la meilleure performance prédictive. Cependant, l’approche 5 (c’est-à-dire « Extended Clearance Model ») qui se base sur le transport facilité, en était une très pertinente à appliquer pour les substrats de transporteurs membranaires. Lesdits substrats seraient potentiellement moins affectés par l’ALB. Ainsi, un arbre décisionnel a été proposé pour choisir rapidement et judicieusement la meilleure approche IVIVE servant à prédire la CLhin vivo pour chaque xénobiotique en présence de l’ALB. Dans un deuxième temps, les médicaments PER et FLU ont été sélectionnés à partir d’une collecte de données (N= 1907 médicaments) en fonction de certains critères (avoir un métabolisme exclusif ou prédominant dans le foie, pas de transport facilité par les transporteurs membranaires, une haute affinité pour les deux protéines ALB et AGP, et un ratio de liaison à l’AGP sur celle à l’ALB proche de l’unité). Cette sélection a été réalisée pour faire des expériences sur des foies isolés et perfusés de rats (IPRL), en présence et en absence des protéines ALB et AGP (c’est-à-dire quatre scénarios IPRL). Les résultats IPRL ont démontré que PER est faiblement à moyennement métabolisé (extraction hépatique= 0,2-0,7), tandis que FLU est fortement métabolisé (extraction hépatique= 0,8-0,99). Le modèle Michaelis-Menten a été ajusté aux cinétiques métaboliques, et différents paramètres Vmax, Km et Km, u ont été obtenus de ce modèle. À de faibles concentrations libres pour les deux médicaments (c’est-à-dire à des concentrations thérapeutiques) et en présence des protéines plasmatiques, les valeurs de CLint non liée ont augmenté pour PER (avec l’ALB et le mélange des deux protéines (MIX)) et FLU (avec l’ALB, l’AGP et le MIX) par rapport à celles obtenues du scénario sans protéine (sauf pour PER avec AGP, lesdites valeurs ont diminué). Par ailleurs, les calculs des ratios CLint (SANS versus AVEC protéine) ont permis d’indiquer l’occurrence d’une facilitation de la captation hépatique de médicaments par l’ALB ou l’AGP. Ces ratios ont aussi permis de vérifier si la cinétique métabolique pour PER et FLU suivait soit « l’hypothèse du médicament libre » soit celle de « la captation hépatique facilitée par les protéines plasmatiques ». Dans un dernier temps, une nouvelle approche prédictive de CLh (approche WO-to-MIX) est développée en se basant sur une nouvelle notion de liaison fractionnelle et en intégrant dans le « fup-adjusted model » de nouveaux paramètres tels que la fraction liée à l’ALB (fB-ALB) et celle liée à l’AGP (fB-AGP) à partir du scénario MIX. Ce modèle est basé sur la captation facilitée par l’ALB. Contrairement à l’approche WO-to-MIX, le « well-stirred model » (ou modèle conventionnel) est basé sur l’hypothèse du médicament libre. Ensuite, les paramètres Vmax et Km obtenus in situ pour PER et FLU lors des expériences IPRL sans protéines, ont été utilisés en combinaison avec le paramètre intrant de la fraction libre ajustée (fup-adjusted) pour le « fup-adjusted model » ou avec la fraction libre (fup) pour le « well-stirred model ». Une comparaison des performances prédictives globales des deux modèles a été faite. Les performances prédictives du nouveau modèle étaient prometteuses, en particulier pour FLU qui montrait le plus haut degré de captation hépatique médiée par l’ALB, par rapport au modèle conventionnel. L’approche WO-to-MIX est une première validation d’un nouveau modèle d’extrapolation proposé pour les médicaments comme FLU qui se lient à l’ALB et à l’AGP. Néanmoins, le modèle conventionnel reste utile à utiliser pour les médicaments comme PER. L’exactitude de prédiction était inférieure pour ce dernier médicament probablement parce que la captation hépatique par l’ALB ne semble pas être maximale, et, par conséquent, l’utilisation de fup-adjusted a surestimé la CLhin vivo. Par conséquent, plus de travail est nécessaire en particulier pour PER. Cette thèse démontre qu’une seule approche générique pour prédire la CLh n’existe pas. Néanmoins, le choix d’une approche IVIVE ayant une performance prédictive satisfaisante est maintenant possible. Les résultats de cette thèse contribuent à : 1) mieux comprendre les répercussions sur les paramètres PK/TK de la forte liaison des médicaments à l’ALB et à l’AGP ; 2) choisir la meilleure approche prédictive de CLh sur la base de l’affinité du xénobiotique (médicament ou contaminant) pour chacune des protéines plasmatiques et des mécanismes impliqués dans le foie ; et 3) prédire la CLh avec précision et exactitude des xénobiotiques qui se lient aux deux protéines plasmatiques. Ces approches IVIVE pour la CLh pourront assurément être intégrées dans des modèles PK/TK à base physiologique pour les xénobiotiques afin d’améliorer la prédiction de leur pharmacocinétique et d’accélérer le processus de développement de médicaments. / The prediction of pharmacokinetic/toxicokinetic (PK/TK) parameters such as intrinsic clearance (CLint) and hepatic clearance (CLh) for highly bound drugs is a major challenge in quantitative modeling. According to the ‘free drug hypothesis’, only the free drug can pass through the plasma membrane and the CLh of this drug is calculated according to its free fraction (fup). Nevertheless, the hepatic uptake facilitated by albumin (ALB) is a violation of the ‘free drug hypothesis’. This facilitated hepatic uptake is based on the possibility that the ALB-drug complex may provide additional drug intake to the hepatocytes. Thus, this could largely explain the underpredictions of CLh. In addition, some drugs can bind extensively in plasma, and to several plasma proteins such as ALB and alpha-1-glycoprotein acid (AGP). Thus, the high binding of the same drug to either ALB or AGP, or to both, could have distinct impacts on the prediction of these PK/TK parameters. However, no study has yet explored how to simulate the difference between these impacts. The main objective of this thesis is therefore to evaluate (with accuracy and precision) for a series of drugs, in the in vivo (or in situ) condition, these impacts in the presence of the two plasma proteins, jointly or separately. Also, it is important to verify if a generic model can be applied. This thesis is divided into three specific objectives. The first is to propose a decision tree to facilitate the selection of appropriate predictive approaches of CLhin vivo for drugs with different characteristics. The second is to assess the impacts of extensive binding to the two plasma proteins ALB and AGP on the CLh of two selected xenobiotics (perampanel (PER) and fluoxetine (FLU)); these drugs have strong affinities to both proteins and an exclusive (or predominant) metabolism in the liver. And the last objective is to develop and validate a new predictive model of CLh for xenobiotics with the potential to bind extensively to ALB as well as to AGP. Firstly, in vitro data obtained in humans were collected for 19 drugs (i.e. substrates of OAT2 and OATP1B1 transporters) and were then used in six in vitro-to-in vivo (IVIVE) extrapolation models to predict these PK/TK parameters. After a statistical comparison, the results showed that the approach 2 (i.e. ‘fup-adjusted model’) that is based on the ALB-facilitated hepatic uptake, had the best predictive performance. However, the approach 5 (i.e. ‘Extended Clearance Model’) that is based on the membrane transporter-mediated uptake, was very relevant to apply for the substrates of membrane transporters. These substrates would potentially be less affected by ALB. Thus, a decision tree has been proposed to quickly and judiciously select the best IVIVE approach to predict CLhin vivo for each xenobiotic in the presence of ALB. Secondly, the PER and FLU drugs were selected from a data collection of 1907 drugs depending on certain criteria (exclusive or predominant metabolism in the liver, no transport facilitated by membrane transporters, high affinity for the two proteins ALB and AGP, and having a binding ratio between AGP and ALB close to the unity). This selection was made to conduct experiments using the isolated and perfused rat liver (IPRL) apparatus, in the presence, and in the absence of the ALB and AGP proteins (i.e. four IPRL scenarios). The IPRL results showed that PER is low to moderately metabolized (hepatic extraction= 0.2-0.7), while FLU is highly metabolized (hepatic extraction= 0.8-0.99). The Michaelis-Menten model was fitted to the obtained metabolic kinetics, and different parameters Vmax, Km and Km, u were obtained from the model. At low free concentrations for both drugs (i.e. therapeutic concentrations) and in the presence of plasma proteins, the values of unbound CLint increased for PER (with ALB and the mixture of the two proteins (MIX)) and FLU (with ALB, AGP and MIX); when compared to those obtained from the protein-free scenario (except for PER with AGP, the unbound CLint values decreased). In addition, the calculations of CLint ratios (WITHOUT versus WITH protein) indicated the occurrence of a hepatic uptake facilitated by ALB or AGP. These ratios also helped in verifying whether the metabolic kinetics for PER and FLU followed either ‘the free drug hypothesis’ or that of ‘plasma protein-facilitated hepatic uptake’. Finally, a new predictive approach of CLh (WO-to-MIX approach) was developed based on a new notion of fractional binding and incorporating new parameters such as the ALB bound fraction (fB-ALB) and the AGP bound fraction (fB-AGP) from the MIX scenario into the ‘fup-adjusted model’. This model is based on the ‘ALB-facilitated hepatic uptake’. Unlike the WO-to-MIX approach, the ‘well-stirred model’ is based on ‘the free drug hypothesis’. Then, the Vmax and Km parameters that were obtained in situ for PER and FLU from the protein-free IPRL experiments, were used in combination with the fup-adjusted input parameter for the ‘fup-adjusted model’ or with the free fraction (fup) for the ‘well-stirred model’. A comparison of the two models’ overall predictive performances was made. The predictive performances of the new model were promising for FLU, which showed the highest degree of ‘ALB-mediated hepatic uptake’, compared to the conventional model. This WO-to-MIX approach is a first validation of a novel extrapolation model suggested for drugs such as FLU that bind to both ALB and AGP. The well-stirred model remains however a useful tool to predict the clearance for drugs such as PER. The prediction accuracy was lower for the latter drug probably because the ALB-mediated hepatic uptake does not seem to be maximal, and, hence, the use of fup-adjusted has overestimated its CLhin vivo. Therefore, more work is needed particularly for PER. This thesis shows that a generic approach to predict the CLh in vivo does not exist. Nevertheless, the choice of an IVIVE approach with satisfactory predictive performances is now possible. The results of this thesis contribute to: 1) better understand the impacts on the PK/TK parameters of extensive drug binding to ALB and AGP; 2) choose the best predictive approach to CLh based on the affinity of xenobiotic (drug or contaminant) to each of the plasma proteins and the mechanisms involved in the liver; and 3) predict accurately and with precision the output CLh of xenobiotics that bind to the two plasma proteins. These IVIVE approaches for CLh can certainly be integrated into physiologically based PK/TK models for xenobiotics to improve the prediction of their pharmacokinetics and to accelerate the drug development process.

Clairance hépatique

Interactions pharmacocinétiques

Albumine

Alpha-1-glycoprotéine acide

Captation facilitée par la protéine

Transporteurs membranaires

Extrapolation in vitro-in vivo

Foie isolé et perfusé du rat

Hepatic clearance

Extensive plasma protein binding

Pharmacokinetic interactions

Albumin

Alpha-1-acid glycoprotein

Plasma protein-mediated uptake

Membrane transporters

In vitro-in vivo extrapolation

Isolated and perfused rat liver