Alterações metabólicas e histopatológicas induzidas pelos inseticidas fentiona e espinosina em morcegos frugívoros / Metabolic and histopathologic changes induced by insecticides fenthion and spinosyns in fruit bats

Amaral, Thales Simioni

26 March 2009

Made available in DSpace on 2015-03-26T13:02:52Z (GMT). No. of bitstreams: 1 texto completo.pdf: 599375 bytes, checksum: 41a326e15cc22c482b00910867af189a (MD5) Previous issue date: 2009-03-26 / The increasing and indiscriminate use of different types of agrochemicals can directly affect the humans and animals, causing problems related to the nervous system, cancers, endocrine alterations, and hormonal changes such as inhibition of enzymes of the glycolytic and gluconeogenesis pathway, causing hyperglycemia and pathological changes. To evaluate the histopathological and metabolic effects of insecticides on bats Artibeus spp., the animals were submitted to the ingestion of food contaminated with insecticides fenthion and spinosyns. The dosage of the insecticides used was the same suggested for implementation in the fields of culture. After the treatment period (7 and 30 days for fenthion and 7 days for spinosad) were examined plasma concentrations of glucose, proteins and lipids in the liver, the muscles of the limbs and the pectoral muscle, lipids total fat and carcass, and histopathological analysis of liver tissue. The animals treated with fenthion showed no changes in glucose concentrations in any of the treatment groups. However, the group treated for 7 days showed an increased in the concentration of muscle glycogen and a decrease in fatty acids of the carcass, while the animals treated for 30 days did not differ when compared to the control group. The other parameters showed no changes in the group treated with fenthion for 7 and 30 days when compared to the control group. The morphological analysis showed a vacuolization in the hepatocytes of group treated for 7 days, promoting an increase of 30% in cell diameter compared to the control group. Animals treated with insecticide spinosad showed changes in the patterns of energy reserves only in the lipid of the back limb. It was observed an increase in the diameter of the hepatocytes in approximately 16% compared to the control group promoted by the vacuolization. In conclusion, we can say that organophosphate fenthion insecticide alters the energy metabolism and hepatic tissue of fruit bats, while the insecticide spinosad did not promote major changes in metabolic patterns of these animals, suggesting therefore that the spinosyns might replace other classes of more toxic pesticides. / A utilização crescente e indiscriminada de diversos tipos de agrotóxicos pode afetar diretamente os seres humanos e animais, acarretando problemas relacionados ao sistema nervoso, alterações endócrinas e alteração na atividade de enzimas da via glicolítica e neoglicogenética, gerando hiperglicemia e, além disso, alterações histopatológicas. Para avaliar os efeitos metabólicos e histopatológicos de inseticidas em morcegos Artibeus spp., os animais foram submetidos à ingestão de alimento contaminado com inseticidas fentiona e espinosina. A dosagem dos inseticidas foi a mesma sugerida para a aplicação nos campos de cultivo de frutas. Após o período de tratamento (7 e 30 dias fentiona e 7 dias para espinosina), foram analisadas as concentrações de glicose plasmática, proteínas e lipídios do fígado, dos músculos das patas e do músculo peitoral, lipídios totais do tecido adiposo e carcaça, além de análises histopatológicas do tecido hepático. Os animais tratados com fentiona não apresentaram alterações nas concentrações glicêmicas nos grupos analisados. No entanto, o grupo tratado por 7 dias apresentou aumento da concentração de glicogênio muscular e diminuição dos ácidos graxos da carcaça, enquanto o grupo tratado por 30 dias não apresentou diferença em relação ao grupo controle. Os outros parâmetros não apresentaram alterações nos grupos tratados com fentiona por 7 e 30 dias em relação ao grupo controle. As análises morfológicas demonstraram vacuolização nos hepatócitos do grupo tratado por 7 dias, promovendo aumento de 30% no diâmetro celular em relação ao grupo controle. Os animais tratados com inseticida espinosade apresentaram alterações nas reservas energéticas apenas nos lipídios das patas posteriores. Foi observado aumento do diâmetro dos hepatócitos em cerca de 16% em relação ao grupo controle promovido por vacuolização nestas células. Em conclusão, pode-se dizer que inseticida organofosforado fentiona altera o metabolismo energético e o tecido hepático de morcegos frugívoros, enquanto que o inseticida espinosade não promoveu grandes alterações nos padrões metabólicos destes animais, sugerindo, portanto que as espinosinas possam vir a substituir outras classes de pesticidas mais tóxicas.

Inseticida

Metabolismo

Hepatócito

Artibeus

Morcegos

Fentiona

Espinosina

Insecticides

Metabolism

Hepatocytes

Artibeus

Bats

Fenthion

Spinosyns

CNPQ::CIENCIAS BIOLOGICAS::ZOOLOGIA

Transplantation de cellules hépatiques dans le traitement des insuffisances hépatocellulaires après hépatectomie / Hepatic cell transplantation in the treatment of liver failure after hepatectomy

Herrero, Astrid

10 July 2013

Les données cliniques supportent le concept et offrent l’espoir que la thérapie cellulaire trouvera sa place parmi les stratégies thérapeutiques des pathologies hépatiques. Cependant deux obstacles majeurs limitent l'étendue de son application clinique: la faible disponibilité d’hépatocytes humains de qualité et en quantité importante, et une faible efficacité de greffe conduisant à une survie et une fonctionnalité seulement à court terme. L’objectif de ce travail était de développer des modèles animaux d’insuffisance hépatique après hépatectomie et d’analyser la réponse régénérative après transplantation de progéniteurs hépatiques humains isolés et caractérisés dans 2 laboratoires de recherche (INSERM U1040 Montpellier et laboratoire PEDI UCL Bruxelles), en comparaison à des hépatocytes fraichement isolés.Le premier modèle consistait à réaliser une hépatectomie de 30% chez des souris NOD SCID, associée à l’injection préalable de rétrorsine (blocage de la prolifération cellulaire endogène) et d’injecter dans le même temps directement dans le parenchyme 1 million de cellules progénitrices exprimant constitutivement le gène rapporteur Luciférase. Les résultats ont montré la bonne implantation des cellules jusqu’à 1 mois après l’injection avec une différenciation fonctionnelle des cellules mise en évidence par la sécrétion d’albumine humaine dans le sang circulant des animaux.Le deuxième modèle consistait à réaliser une hépatectomie large de 70% chez des souris immunodéprimées RAG 2-/- γ-/- pour augmenter la souffrance hépatocellulaire et à comparer deux timing d’injection (voie intrasplénique) des cellules progénitrices génétiquement marquées avec la Green Fluorescent Protein. Les résultats ont montré une meilleure tolérance clinique (moins de mortalité) et une plus grande quantité de cellules implantées lorsque l’injection était réalisée 48h après l’hépatectomie. La régénération hépatique endogène était plus importante et plus rapide chez les souris injectées avec les progéniteurs qu’avec les hépatocytes primaires, suggérant un effet paracrine bénéfique de ces cellules.Ces travaux ont mis en évidence la possibilité d’utiliser ces cellules progénitrices comme alternative aux hépatocytes avec des propriétés régénératrices certaines mais soulèvent les problèmes d’implantation de ces cellules qui reste faible dans des foies hépatectomisés remaniés. Définir le meilleur environnement pour favoriser la survie, la fonctionnalité et éventuellement l’intégration effective des cellules transplantées reste une question clé pour avancer dans cette voie.En parallèle de ces travaux de recherche, un projet de recherche clinique de biothérapie a été développé et accepté pour transplanter des hépatocytes frais humains en intrahépatique chez des patients ayant une insuffisance hépatocellulaire terminale (hépatite alcoolique aigue, cirrhose grave, après résection hépatique large). Il devrait débuter fin 2013. / Clinical data support the concept and offer the hope that cell therapy will find its place among the therapeutic strategies in liver diseases. However, two major obstacles limit the scope of its clinical application: the limited availability of human hepatocytes quality and in large quantities, and low efficiency leading to graft survival and only a short-term functionality. The objective of this work was to develop animal models of liver failure after hepatectomy and analyze the regenerative response after transplantation of human hepatic progenitors isolated and characterized in two research laboratories (INSERM U1040 Montpellier laboratory PEDI UCL Brussels) compared to freshly isolated hepatocytes.The first model was to achieve a 30% hepatectomy in mice NOD SCID associated with prior injection retrorsine (blocking of endogenous cellular proliferation) and injected at the same time directly into the parenchyma 1 million progenitor cells constitutively expressing the luciferase reporter gene. The results showed good cell implantation until 1 month after injection with a functional differentiation as evidenced by secretion of human albumin in the circulating blood cells of animals.The second model was to achieve a wide 70% hepatectomy in mice immunocompromised RAG 2 - / - γ-/ - to increase the suffering hepatocellular comparing two injection timing (channel intrasplenically) progenitor cells genetically marked with the Green Fluorescent Protein. The results showed better clinical tolerance (less mortality) and a greater amount of implanted when the injection was performed 48 hours after hepatectomy cells. Endogenous hepatic regeneration was greater and faster in mice injected with the progenitors with primary hepatocytes, suggesting a beneficial paracrine effect of these cells.These studies have highlighted the possibility of using these progenitor cells as an alternative to hepatocytes with regenerative properties but raise some problems implementing these cells remains low in hepatectomized livers reworked. Define the Define the best environment to promote the survival, function and possibly the effective integration of transplanted cells remains a key issue for progress in this direction.In parallel with this research, a clinical research project biotherapy was developed and agreed to transplant human hepatocytes in intrahepatic costs in patients with terminal liver failure (acute alcoholic hepatitis, severe cirrhosis, after extensive liver resection). It should begin in late 2013.

Progéniteurs

Hépatocytes

Insuffisance hépatique

Hépatectomie

Transplantation

Thérapie cellulaire

Progenitor cells

Hepatocytes

Liver failure

Hepatectomy

Transplantation

Cellular therapy

Amélioration des résultats de la thérapie cellulaire hépatique : Développement d’une nouvelle méthode de préparation du foie receveur et développement d’une source cellulaire alternative aux hépatocytes / Improvement in liver cell therapy : Development of a new method of recipient liver preparation and development of an alternative cell source to hepatocytes

Pourcher, Guillaume

14 December 2015

La transplantation d’hépatocytes dans le foie est un procédé séduisant pour corriger la fonction hépatique et permettre peut-être d’éviter la transplantation d’organe. Actuellement, la greffe de cellules hépatiques a été envisagée pour corriger le déficit métabolique des patients ayant une maladie hépatique métabolique héréditaire, dont le foie est par ailleurs normal. Les résultats des essais cliniques d’allotransplantation ou d’autotransplantation d'hépatocytes génétiquement modifiés montrent une prise de greffe insuffisante et, dans la plupart des études, un effet thérapeutique transitoire. Ces résultats ont incité à développer des modèles animaux précliniques pour tester des procédés facilitant la prise de greffe. L’intégration des hépatocytes dans les travées hépatocytaires et leur prolifération permet de préparer le foie à greffer par stimulation de la régénération hépatique. Ces deux procédés sont aujourd'hui utilisés en routine dans ces modéles expérimentaux: l’hépatectomie partielle ou l’embolisation portale. Néanmoins, ces deux techniques de stimulation de la régénération hépatique sont difficilement applicables à la pratique clinique car la résection chirurgicale du foie comporte des risques majeurs et l’embolisation portale "classique", c’est-à-dire l’obstruction des grosses veines sectorielles du foie, est responsable d'une embolisation anatomique avec une atrophie ou une destruction partielle de la partie du foie embolisé. Par ces procédés, certes la régénération est stimulée à hauteur de 20% mais seulement sur une partie du volume hépatique (environ 50%) avec diminution du volume accessible à la greffe sans compter les risques liés à l'atrophie ou à la resection chirurgicale du reste du foie.Nous avons donc proposé une nouvelle approche de stimulation de la régénération hépatique chez la souris. Nous avons utilisé une embolisation portale volumétrique à l’aide de microbilles allant très loin dans tout le foie. Il s’agit donc de l’embolisation d'un pourcentage du volume global hépatique sans altération anatomique (lobe) du foie. Ainsi, les traumatismes nécessaires à la préparation du foie pour augmenter la prolifération seront mieux répartis dans la totalité du foie et devraient avoir moins de conséquences sur la fonction hépatique, contrairement à l’embolisation partielle dite anatomique. Un autre effet serait la préservation de l’accessibilité à tout le volume du foie des cellules à greffer et non plus à la partie non embolisée du foie ce qui devrait d’augmenter le nombre de cellules injectées donc transplantées par une même préparation.Nous devons encore évaluer les repercutions hépatiques à long terme (>J21) des conditions d'embolisation volumétrique à plus fort taux de régénération mais qui implique des lésions de nécrose hépatique. Avant de passer sur des modéles cliniques, une évaluation de l’embolisation volumétrique sur un animal plus gros (rat ou maquaque) avec déficit métabolique est nécéssaire. Par ailleurs, cette nouvelle préparation du foie doit être optimisée pour une application clinique à moyen terme avec des injections séquentielles de microsphères et l’utilisation de microsphères résorbables, ce qui permettrait d’obstruer plus de sinusoïdes sans accumulation du matériel dans les branches portales, et ainsi augmenter le signal de régénération.Si ces résultats se confirment, notamment chez l’animal, ce nouveau procédé permettrait d’améliorer la prise de greffe de façon significative dans l’ensemble du parenchyme hépatique et de pouvoir transplanter un plus grand nombre de cellules. L’intérêt de cette technique peu invasive la rend d’autant plus applicable chez l’homme car l’architecture du foie est préservée. De réels progrès dans la thérapie cellulaire hépatique devront permettre dans le futur de mieux traiter les patients atteints de maladies métaboliques héréditaires. / Hepatocyte transplantation has been proposed as an alternative to orthotopic liver transplantation to treat metabolic liver diseases. This approach requires preconditioning of the host liver to enhance engraftment of transplanted hepatocytes. Different methods are currently used in preclinical models: partial hepatectomy, portal ligature or embolization, and radiotherapy or chemotherapeutic drugs. However, these methods carry high risks of complications and are problematic for use in clinical practice. Here, we developed an innovative method called volumetric (distal, partial and random) portal embolization (EPV), which preserves total liver volume.METHODS: Embolization was performed in the portal trunk of C57BL6 adult mice with polyester microspheres, to ensure a bilateral and distal distribution. The repartition of microspheres was studied by angiographic and histological analysis. Liver regeneration was evaluated by Ki67 labeling. Optimal conditions for EPV were determined and the resulting regeneration was compared with that following partial hepatectomy (70%). Labeled adult hepatocytes were then transplanted and engraftment was compared between embolized (n=19) and non embolized mice (n=8). Engraftment was assessed in vivo and histologically by tracking labeled cells at day 5. RESULTS: The best volumetric embolization conditions, which resulted in the regeneration of 5% of total liver, were 8x106 10µm microspheres infused with a 29 G needle directly into the portal trunk at 3.3ml/s. In these conditions, transplanted hepatocytes engraftment was significantly higher than in control conditions (3 vs 0.65%). CONCLUSIONS: EPV is a new, minimally invasive and efficient technique to prepare the host liver for cell transplantation.

Thérapie cellulaire

Transplantation d'hépatocytes

Régénération hépatique

Embolisation portale volumétrique

Cell therapy

Hepatocytes transplantation

Liver Regeneration

Volumetric portal embolisation

Maternal Hepatic Adaptations to Pregnancy

Shashank Manohar Nambiar (11177052)

06 August 2021

<p>During gestation, the maternal liver undergoes various adaptive changes to cope with the increasing physiological and metabolic demands from both maternal and fetal compartments. Among these changes are robust growth and changes in transcriptome profile. However, how these events happen, and other aspects of this physiological phenomenon remains unexplored. Therefore, we aimed at further understanding how maternal liver responds to pregnancy. We used BrdU labeling combined with a virus-based tracing approach to quantify the percentage of maternal hepatocytes undergoing DNA synthesis and division over the course of gestation in mice. </p> <p>We found that ~50% maternal hepatocytes entered S-phase but, unexpectedly, did not undergo cytokinesis. This strongly suggests that maternal hepatocytes in fact undergo endoreplication instead of hyperplasia, as believed previously. Pericentral Axin2⁺ hepatocytes were reported to behave as liver stem cells responsible for liver homeostasis and turnover. We generated an <i>in vivo</i> fate-tracing mouse model to monitor the behavior of these cells in the maternal liver. Our results showed that they did not proliferate during pregnancy, homeostasis, and following partial hepatectomy. Curiously, we uncovered that, hepatocytes exhibit developmental phenotypes at mRNA level pre-pregnancy and at both mRNA and protein level during pregnancy. In the non-pregnant state, hepatocytes reserved mRNA expression of liver progenitor marker genes <i>Cd133</i> and <i>Afp</i>, which are localized in the nuclei, without protein translation. During gestation, maternal hepatocytes displayed cytoplasmic translocation of <i>Cd133</i> and <i>Afp</i> transcripts, concomitant with corresponding protein expression. </p> <p>Overall, all maternal hepatocytes became CD133⁺, and a subset of them express AFP. Additionally, in non-pregnant livers, mRNA of <i>Epcam</i>, another liver progenitor marker, was expressed within majority of hepatocytes, whereas its protein was solely translated in the pericentral region. In contrast, by end-gestation, EPCAM protein expression switched to the periportal region. These observations indicate that maternal hepatocytes exhibit heterogeneous developmental phenotypes, partially resembling fetal hepatocytes. It is intriguing why mature hepatocytes dedifferentiate into a progenitor state in response to pregnancy. AFP is considered to be produced primarily from fetal liver and thus is used to evaluate fetal development health. </p> A potential clinical relevance of our data is that we identified maternal liver as a new source of AFP. The hippo signaling pathway has been shown to potently control liver growth and hepatocyte heterogenicity. Surprisingly, we found that pregnancy neither altered the expression nor activities of the components of this pathway and its effector YAP1/TAZ. This finding indicates that pregnancy-induced maternal liver growth is not driven by hippo-YAP1 pathway. However, we demonstrate that the presence of YAP1 is essential for CD133 protein expression in maternal hepatocytes. Collectively, we revealed that, as pregnancy advances, maternal hepatocytes likely undergo endoreplication and display developmental phenotypes. Mechanistically, YAP1 dictates the expression of CD133, contributing to the pregnancy-dependent phenotypic changes of maternal hepatocytes.

Cell Biology

Molecular Biology

Animal Cell and Molecular Biology

Maternal liver

Pregnancy

Adaptations

Hepatocytes

Endoreplication

Hippo pathway

LE POTENTIEL HEPATIQUE DES CELLULES SOUCHES MESENCHYMATEUSES RAJEUNNIES ET DES PROGENITEURS ENDODERMIQUES : CONTRIBUTION DES VOIES DE SIGNALISATION DE LA LGR5 et la CDC42 / Hepatic potential of Reversed-age Mesenchymal Stem Cells and Endodermal Progenitors : Contribution of LGR5 and Cdc42 cell signaling pathways

Chaker, Diana

18 December 2017

La thérapie cellulaire utilisant une greffe d’hépatocytes est une stratégie prometteuse pour traiter les maladies du foie. Cependant, plusieurs limitations freinent leur transfert pour des applications cliniques, comprenant la production à haut débit d'hépatocytes fonctionnels, leur survie en culture, l’âge du donneur et la source des cellules souches hépatiques (CS). Les avancées scientifiques réalisées à ce jour ont permis d’identifier de nouveaux marqueurs moléculaires et les voies de signalisation impliquées dans la différenciation des CS en hépatocytes fonctionnels. En effet, la voie de signalisation Wnt a montré être importante pour réguler de nombreux processus biologiques des CS permettant de contrôler leur différenciation hépatique dont l’activation des GTPases et les gènes ciblant la voie de signalisation de Lgr5. Récemment, des études ont montré que le marqueur Lgr5 (récepteur 5 couplé à la protéine G contenant une répétition d’acides aminés riche en leucine) est décisif pour maintenir une expansion à long terme des CS hépatiques in vitro. En outre, Lgr5 fonctionne principalement comme un effecteur de la Cdc42 (cycle de division cellulaire 42) qui est un membre de la famille des Rho-GTPase. Une forte expression de la Cdc42 a montré être corrélée avec le vieillissement des SCs hématopoïétiques. Néanmoins, cette corrélation n'a jamais été étudiée à ce jour dans les cellules souches mésenchymateuses dérivées du tissu adipeux humain (hADSCs).Au cours de nos travaux de thèse, nous nous sommes intéressés (i) à proposer une nouvelle technologie de reprogrammation d’hépatocytes matures murins en progéniteurs endodermiques (mEndoPCs) exprimant Lgr5 capables de générer des organoïdes spécifiques du foie et de se différencier en hépatocytes et cholangiocytes in vitro et en des structures biliaires et hépatiques in vivo (ii) à étudier l’activité de Cdc42 dans les hADSCs âgées et l'impact de son inhibition sélective par le ML141 sur leur potentiel de différenciation hépatique in vitro.Nous montrons qu’il a été possible de générer des mEndoPCs et à améliorer la différenciation hépatique des hADSCs âgés. Nous montrons également que Lgr5 et Cdc42 sont régulés de façon distincte par la voie de signalisation Wnt. De plus, nos résultats ont révélé que les voies LIFR/STAT3 et Lgr5/WNT sont essentielles pour l’auto renouvellement des mEndoPCs permettant leur expansion illimitée in vitro en présence d’activateur de STAT3. Les voies MAPK/PKA, WNT/ β-caténine et la production d'exosomes ont montré avoir rôle majeur dans l’âge des hADSCs. Nous montrons qu’une transition mésenchymato-épithéliale était nécessaire pour différencier les hADSCs en hépatocytes fonctionnels. D’autre part, ML141 est proposé comme un nouvel outil pharmacologique permettant de reverser l’âge des hADSC âgés et d’amplifier le taux de prolifération, d’adhésion et de fonctionnalité hépatique à un niveau équivalent aux hADSCs jeunes. Enfin, le transfert de ces méthodologies à l’homme pourrait servir pour la médecine régénératrice du foie, comme outil pour évaluer la toxicité hépatique des médicaments et pour l'ingénierie et la reconstitution d’un foie entier par des approches de « bio printing ». / Hepatocytes cell-based transplantation is a promising strategy for treating liver diseases. However, there are still several limitations for their use in clinical applications among them the generation of highthrouput of functional hepatocytes, their life span in culture, the age of the donor age and the source of hepatic stem cells (SCs). At present, the challenge lies to develop approaches aiming the identification of the new molecular markers signaling pathways involved in the differentiation of SCs toward functional hepatocytes. In fact, Wnt(s) pathways governs multiple biological processes controlling the differentiation fate of SCs into hepatocytes, some of them result in the activation of small GTPase and the Lgr5 pathway regulators. Indeed, Lgr5 (a target gene of Wnt, the Leucine-rich-repeat-containing G protein-coupled Receptor 5) was shown to be crucial for maintaining long-term expansion of hepatic SC in vitro. In addition, Lgr5 primarily functions as an effector of the Cdc42 GTPases (a RhoGTPase protein, the cell division cycle 42). Higher activity of Cdc42 was reported to be correlated to hematopoietic SCs aging. However, this correlation has never been studied before in adipose tissue Mesenchymal Stem Cells (ADSCs) which were proposed recently as a promising tool for liver regeneration.In this study, we were interested (i) to propose a novel method of reprogramming mouse mature hepatocytes into murine endodermic progenitors (mEndoPCs) that express Lgr5, generate liver-specific organoids and can differentiate into hepatocytes and cholangiocytes in vitro and give arise to bile duct structures and into functional hepatocytes in vivo, and (ii) to study the activity of Cdc42 in human aged-derived hADSCs and the impact of its selective inhibition by ML141 on their hepatic differentiation potential in vitro.In our study we succeeded to generate mEndoPCs and to improve the functionality of the aged-hADSCs derived-hepatocytes. We showed that both Lgr5 and Cdc42 are regulated distinctly by Wnt signaling pathways. In addition, our results revealed that LIFR/STAT3 and LGR5/WNT pathways are important to maintain the unlimited expansion of mEndoPCs in vitro when STAT3 pathway is activated. MAPK/PKA, WNT/ β-catenin pathways and the exosome’s production were shown to be deregulated with hADSCs aging. We showed also that a mesenchymal to epithelial transition was crucial to transdifferentiate hADSCs into functional hepatocytes. On the other side, ML141 is proposed as a new pharmacological tool to rejuvenate aged-hADSCs toward functionally younger-like cells thus by promoting cell proliferation, doubling and cell adherence. Finally, the transfer of these methodologies to human could serve the regenerative medicine of the liver as a good tool for hepatocyte-based drug toxicity screening systems and for the liver engineering using a « bio printing » approach.

Wnt

Cellules Souches Mésenchymateuses

Hépatocytes

Cdc42

Lgr5

Age du donneur

Wnt

Mesenchymal Stem Cells

Hepatocytes

Cdc42

Lgr5

Donor Age

Vývoj ligandů konstitutivního androstanového receptoru (CAR) / Development of novel Constitutive androstane receptor (CAR) ligands

Dušek, Jan

January 2019

Charles University, Faculty of Pharmacy in Hradec Králové Department of Pharmacology and Toxicology Candidate Mgr. Jan Dušek Supervisor Prof. PharmDr. Petr Pávek, Ph.D. Title of Doctoral Thesis Development of novel Constitutive androstane receptor (CAR) ligands Constitutive androstane receptor is nowadays known as the established nuclear receptor that regulates the expression of several key cytochrome P450 enzymes, predominantly CYP3A4 and CYP2B6. Recently it has been shown that CAR has also essential role in the regulation of endogenous metabolism of glucose, lipids, cholesterole or bile acids. Simultaneously, this receptor is considered to have proliferative effect on human hepatocytes and protective effects against toxic and dietary damage of liver parenchyme. Given the possible therapeutic utilization of CAR, its therapeutic options are being intensively studied. Unfortunately, currently known ligands of human or mouse CAR are either poorly selective or indirect. The aim of my doctoral thesis was to find new ligands of mouse and human CAR, that would enable more detailed study of the receptor.

Prolonged Lipid Accumulation in Cultured Primary Human Hepatocytes Rather Leads to ER Stress than Oxidative Stress

Rennert, Christiane, Heil, Theresa, Schicht, Gerda, Stilkerich, Anna, Seidemann, Lena, Kegel-Hübner, Victoria, Seehofer, Daniel, Damm, Georg

22 February 2024

Overweight has become a major health care problem in Western societies and is accompanied by an increasing incidence and prevalence of non-alcoholic fatty liver disease (NAFLD). The progression from NAFLD to non-alcoholic steatohepatitis (NASH) marks a crucial tipping point in the progression of severe and irreversible liver diseases. This study aims to gain further insight into the molecular processes leading to the evolution from steatosis to steatohepatitis. Steatosis was induced in cultures of primary human hepatocytes by continuous five-day exposure to free fatty acids (FFAs). The kinetics of lipid accumulation, lipotoxicity, and oxidative stress were measured. Additionally, ER stress was evaluated by analyzing the protein expression profiles of its key players: PERK, IRE1a, and ATF6a. Our data revealed that hepatocytes are capable of storing enormous amounts of lipids without showing signs of lipotoxicity. Prolonged lipid accumulation did not create an imbalance in hepatocyte redox homeostasis or a reduction in antioxidative capacity. However, we observed an FFA-dependent increase in ER stress, revealing thresholds for triggering the activation of pathways associated with lipid stress, inhibition of protein translation, and apoptosis. Our study clearly showed that even severe lipid accumulation can be attenuated by cellular defenses, but regenerative capacities may be reduced.

info:eu-repo/classification/ddc/610

ddc:610

Influence of Genistein on Hepatic Lipid Metabolism in an In Vitro Model of Hepatic Steatosis

Seidemann, Lena, Krüger, Anne, Kegel-Hübner, Victoria, Seehofer, Daniel, Damm, Georg

05 May 2023

Nonalcoholic fatty liver disease (NAFLD) is among the leading causes of end-stage liver disease. The impaired hepatic lipid metabolism in NAFLD is exhibited by dysregulated PPARα and SREBP-1c signaling pathways, which are central transcription factors associated with lipid degradation and de novo lipogenesis. Despite the growing prevalence of this disease, current pharmacological treatment options are unsatisfactory. Genistein, a soy isoflavone, has beneficial effects on lipid metabolism and may be a candidate for NAFLD treatment. In an in vitro model of hepatic steatosis, primary human hepatocytes (PHHs) were incubated with free fatty acids (FFAs) and different doses of genistein. Lipid accumulation and the cytotoxic effects of FFAs and genistein treatment were evaluated by colorimetric and enzymatic assays. Changes in lipid homeostasis were examined by RT-qPCR and Western blot analyses. PPARα protein expression was induced in steatotic PHHs, accompanied by an increase in CPT1L and ACSL1 mRNA. Genistein treatment increased PPARα protein expression only in control PHHs, while CPTL1 and ACSL1 were unchanged and PPARα mRNA was reduced. In steatotic PHHs, genistein reversed the increase in activated SREBP-1c protein. The model realistically reflected the molecular changes in hepatic steatosis. Genistein suppressed the activation of SREBP-1c in steatotic hepatocytes, but the genistein-mediated effects on PPARα were abolished by high hepatic lipid levels.

info:eu-repo/classification/ddc/540

ddc:540

Mitochondrial Transfer by Human Mesenchymal Stromal Cells Ameliorates Hepatocyte Lipid Load in a Mouse Model of NASH

Hsu, Mei-Ju, Karkossa, Isabel, Schäfer, Ingo, Christ, Madlen, Kühne, Hagen, Schubert, Kristin, Rolle-Kampczyk, Ulrike E., Kalkhof, Stefan, Nickel, Sandra, Seibel, Peter, von Bergen, Martin, Christ, Bruno

13 April 2023

Mesenchymal stromal cell (MSC) transplantation ameliorated hepatic lipid load; tissue inflammation; and fibrosis in rodent animal models of non-alcoholic steatohepatitis (NASH) by as yet largely unknown mechanism(s). In a mouse model of NASH; we transplanted bone marrow-derived MSCs into the livers; which were analyzed one week thereafter. Combined metabolomic and proteomic data were applied to weighted gene correlation network analysis (WGCNA) and subsequent identification of key drivers. Livers were analyzed histologically and biochemically. The mechanisms of MSC action on hepatocyte lipid accumulation were studied in co-cultures of hepatocytes and MSCs by quantitative image analysis and immunocytochemistry. WGCNA and key driver analysis revealed that NASH caused the impairment of central carbon; amino acid; and lipid metabolism associated with mitochondrial and peroxisomal dysfunction; which was reversed by MSC treatment. MSC improved hepatic lipid metabolism and tissue homeostasis. In co-cultures of hepatocytes and MSCs; the decrease of lipid load was associated with the transfer of mitochondria from the MSCs to the hepatocytes via tunneling nanotubes (TNTs). Hence; MSCs may ameliorate lipid load and tissue perturbance by the donation of mitochondria to the hepatocytes. Thereby; they may provide oxidative capacity for lipid breakdown and thus promote recovery from NASH-induced metabolic impairment and tissue injury.

info:eu-repo/classification/ddc/610

ddc:610

Prolonged Lipid Accumulation in Cultured Primary Human Hepatocytes Rather Leads to ER Stress than Oxidative Stress

Rennert, Christiane, Heil, Theresa, Schicht, Gerda, Stilkerich, Anna, Seidemann, Lena, Kegel-Hübner, Victoria, Seehofer, Daniel, Damm, Georg

26 February 2024

Overweight has become a major health care problem in Western societies and is accompanied by an increasing incidence and prevalence of non-alcoholic fatty liver disease (NAFLD). The progression from NAFLD to non-alcoholic steatohepatitis (NASH) marks a crucial tipping point in the progression of severe and irreversible liver diseases. This study aims to gain further insight into the molecular processes leading to the evolution from steatosis to steatohepatitis. Steatosis was induced in cultures of primary human hepatocytes by continuous five-day exposure to free fatty acids (FFAs). The kinetics of lipid accumulation, lipotoxicity, and oxidative stress were measured. Additionally, ER stress was evaluated by analyzing the protein expression profiles of its key players: PERK, IRE1a, and ATF6a. Our data revealed that hepatocytes are capable of storing enormous amounts of lipids without showing signs of lipotoxicity. Prolonged lipid accumulation did not create an imbalance in hepatocyte redox homeostasis or a reduction in antioxidative capacity. However, we observed an FFA-dependent increase in ER stress, revealing thresholds for triggering the activation of pathways associated with lipid stress, inhibition of protein translation, and apoptosis. Our study clearly showed that even severe lipid accumulation can be attenuated by cellular defenses, but regenerative capacities may be reduced.

info:eu-repo/classification/ddc/610

ddc:610