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Altérations de l'homéostasie de l'ADN mitochondrial par les médicaments et modulation par la stéatose hépatique / Drug-induced alterations of mitochondrial DNA homeostasis and modulation by non-alcoholic fatty liver diseaseLe Guillou, Dounia 08 December 2017 (has links)
Il est estimé aujourd’hui que plus de 350 médicaments peuvent induire des lésions hépatiques entraînant différentes manifestations cliniques telles qu’une hépatite cytolytique, une stéatose voire une cirrhose. Bon nombre de médicaments hépatotoxiques induisent un dysfonctionnement mitochondrial. Cependant, les mécanismes induisant de tels effets délétères ne sont pas tous élucidés, en particulier ceux concernant l’ADN mitochondrial (ADNmt) et son homéostasie, qui ne sont pas souvent explorés. De plus, il existe peu d’informations concernant l’hépatotoxicité médicamenteuse dans un contexte de stéatose induite par l’obésité. Ainsi, l’objectif de ce travail a été tout d’abord de mettre au point un modèle de stéatose dans les cellules de la lignée hépatocytaire humaine HepaRG afin d’étudier ensuite, les effets de neuf médicaments hépatotoxiques et vraisemblablement mitochondriotoxiques – l’amiodarone, l’atorvastatine, la carbamazépine, l’imipramine, la lovastatine, la perhexiline, le ritonavir, la terbinafine et la troglitazone – sur l’homéostasie de l’ADNmt dans un contexte ou non de stéatose. En utilisant des concentrations peu ou non cytotoxiques, nous avons trouvé que parmi les neuf médicaments étudiés, le ritonavir et l’imipramine ont induit des effets mitochondriaux suggérant une altération de la traduction mitochondriale. De façon notable, la toxicité du ritonavir était plus importante dans les cellules non-stéatosées. De plus, aucun des neuf médicaments n’a induit de diminution des quantités d’ADNmt. Cependant, les quantités accrues d’ADNmt ont été retrouvées avec six des neuf médicaments, et notamment dans les cellules non-stéatosées. Cela était par ailleurs accompagné d’une modulation de l’expression des différents facteurs impliqués dans la biogenèse mitochondriale (PGC-1α, PGC-1β, AMPK, etc.). Ainsi, ces données laissent supposer qu’une altération de la traduction mitochondriale peut ne pas être une événement rare et que l’augmentation des quantités d’ADNmt et la modulation de la biogenèse mitochondriale pourraient être une réponse adaptative fréquente à des altérations mitochondriales pouvant être amoindrie par la stéatose. / It is currently estimated that more than 350 drugs can induce liver injury with different clinical presentations such as hepatic cytolysis, steatosis, even cirrhosis. Many hepatotoxic drugs can induce mitochondrial damage and dysfunction. However, not all mechanisms that lead to such deleterious effects are clarified, especially those concerning mitochondrial DNA (mtDNA) and its homeostasis, which are not often investigated. Moreover, there is little information regarding the impact of non alcoholic fatty liver disease (NAFLD) on drug-induced liver injury. Thus, the aim of this work was, first of all, to develop a model of NAFLD in the hepatic cell line HepaRG in order to study further effects of nine hepatotoxic and presumably mitochondriotoxic drugs – amiodarone, atorvastatin, carbamazepine, imipramine, lovastatin, perhexiline, ritonavir, terbinafine and troglitazone –, on mtDNA homeostasis in the context of NAFLD or not. By using drug concentrations that did not induce major cytotoxicity, we found that, among the nine drugs, studied, ritonavir and imipramine induced mitochondrial effects suggesting alteration of mtDNA translation. Notably, ritonavir toxicity was stronger in non-steatotic cells. Furthermore, none of the nine drugs decreased mtDNA levels. However, increased mtDNA was observed with six drugs, especially in non-steatotic cells. This result was also accompanied by a modulation of the expression of various factors involved in mitochondrial biogenesis (e.g. PGC-1α, PGC-1β, AMPK).Therefore, this data suggests that drug-induced impairment of mtDNA translation may not be a rare event and increased mtDNA levels and modulation of mitochondrial biogenesis could be a frequent adaptive response to mitochondrial impairments, which could be dampened by steatosis.
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ATP-Binding-Cassette Transporters in Biliary Efflux and Drug-Induced Liver InjuryPedersen, Jenny M. January 2013 (has links)
Membrane transport proteins are known to influence the absorption, distribution, metabolism, excretion and toxicity (ADMET) of drugs. At the onset of this thesis work, only a few structure-activity models, in general describing P-glycoprotein (Pgp/ABCB1) interactions, were developed using small datasets with little structural diversity. In this thesis, drug-transport protein interactions were explored using large, diverse datasets representing the chemical space of orally administered registered drugs. Focus was set on the ATP-binding cassette (ABC) transport proteins expressed in the canalicular membrane of human hepatocytes. The inhibition of the ABC transport proteins multidrug-resistance associated protein 2 (MRP2/ABCC2) and bile salt export pump (BSEP/ABCB11) was experimentally investigated using membrane vesicles from cells overexpressing the investigated proteins and sandwich cultured human hepatocytes (SCHH). Several previously unknown inhibitors were identified for both of the proteins and predictive in silico models were developed. Furthermore, a clear association between BSEP inhibition and clinically reported drug induced liver injuries (DILI) was identified. For the first time, an in silico model that described combined inhibition of Pgp, MRP2 and breast cancer resistance protein (BCRP/ABCG2) was developed using a large, structurally diverse dataset. Lipophilic weak bases were more often found to be general ABC inhibitors in comparison to other drugs. In early drug discovery, in silico models can be used as predictive filters in the drug candidate selection process and membrane vesicles as a first experimental screening tool to investigate protein interactions. In summary, the present work has led to an increased understanding of molecular properties important in ABC inhibition as well as the potential influence of ABC proteins in adverse drug reactions. A number of previously unknown ABC inhibitors were identified and predictive computational models were developed.
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Jaundice and Hepatorenal Syndrome Associated With Cytosine ArabinosideKirtley, D W., Votaw, M L., Thomas, E 01 March 1990 (has links)
A young man receiving high dose cytosine arabinoside (3g/m2 every 12 hours) for promyelocytic leukemia developed rapidly increasing hyperbilirubinemia and hepatorenal syndrome. The patient had been treated previously with courses of standard dose cytosine arabinoside without hepatic or renal complications. His condition rapidly deteriorated, and he required hemodialysis. The total bilirubin increased to 45.4 mg/dL, but alkaline phosphatase remained normal. Twelve days after starting chemotherapy, the patient died of hepatorenal failure. Liver necropsy revealed mild bile stasis and microvesicular steatosis. We suspect high dose cytosine arabinoside played a major role in causing impairment of bilirubin transport within the hepatocyte in this patient.
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