Place de l'Interleukine-33 dans la réponse immune du foie au cours de la leishmaniose viscérale / Role of IL-33 in the hepatic immune response during visceral leishmaniasis

Rostan, Octavie

06 June 2013

La leishmaniose viscérale est une maladie systémique mortelle en l’absence de traitement. Elle est due aux protozoaires Leishmania donovani et L. infantum, parasites des phagocytes mononucléés, capables d’envahir les organes lymphoïdes et le foie. Le contrôle de l’infection hépatique repose sur la mise en place d’une réponse granulomateuse efficace, promue par une réponse immunitaire Th1, dans un environnement tissulaire Th2. L’objectif de ce travail était l'étude du rôle d’une cytokine Th2 récemment décrite, l’IL-33, dans cette réponse hépatique complexe encore partiellement incomprise. Des dosages d’IL-33 sur des sérums de patients et la détection de cellules IL-33+ dans le foie d’un patient rennais ont placé l’IL-33 comme un biomarqueur possible de la maladie active. L’IL-33 étant exprimée dans les cellules étoilées du foie au cours d’hépatites chroniques, ces cellules ont été exposées à L. donovani. Leur permissivité aux leishmanies sans toxicité apparente ni perturbation de leurs propriétés fonctionnelles, ainsi que la persistance des leishmanies sur une culture de plusieurs semaines, nous ont conduit à proposer les cellules étoilées comme cellules sanctuaires possibles pour les leishmanies viscérotropes, contribuant donc potentiellement au portage asymptomatique. En revanche, elles ne sont pas apparues comme une source majeure d'IL-33 au cours de la leishmaniose viscérale. Chez des souris C57BL/6 et BALB/c infectées par L. donovani, l'IL-33 a été observée dans des cellules ne s'apparentant pas à des cellules étoilées, et principalement localisées dans les granulomes. Des cellules exprimant son récepteur ST2 ayant été également observées dans le foie, un rôle de l’axe IL-33/ST2 a été recherché. Les résultats obtenus chez des souris BALB/c déficientes en ST2 ou traitées par de l'IL-33 recombinante suggèrent que l'IL-33 régule négativement l'expression de cytokines Th1 (IL-12, IFN-γ) et l'infiltrat de neutrophiles et monocytes dans le foie, limitant ainsi le contrôle de la charge parasitaire. Ainsi, l'IL-33 semble être un facteur de susceptibilité pour la leishmaniose viscérale. En parallèle, des travaux entrepris sur des souris C57BL/6 infectées par L. donovani suggèrent de possibles rôles différentiels de l'IL-33 en fonction de l'environnement immunitaire inhérent au fond génétique de l'hôte. / Visceral leishmaniasis is a life-threatening systemic disease caused by Leishmania protozoans, L. donovani and L. infantum, which invade mononuclear phagocytes in the lymphoid organs and the liver. The control of the hepatic parasite burden depends on the granuloma formation, which is favored by a Th1 immune response in a Th2 tissue microenvironment. The aim of this work was to study the role of the recently described Th2 cytokine IL-33 in this complex immune response, which remains partially misunderstood. IL-33 dosages in different patient sera and IL-33+ cells detected in the liver of a patient from Rennes suggested that IL-33 could be a biomarker for active visceral leishmaniasis. As IL-33 was described in hepatic stellate cells during chronic hepatitis, these cells were exposed to L. donovani in primary culture. The cell permissivity to L. donovani and the parasite persistence during a long term culture led us to propose hepatic stellate cells as a new type of sanctuary cells, which could partially explain asymptomatic carriage. However, these cells were apparently not the main source of IL-33 during visceral leishmaniasis. In infected BALB/c and C57BL/6 mice, IL-33 was detected in the liver in non stellate cells preferentially localized in granulomas. The presence of cells expressing its specific receptor ST2 in the liver led us to explore the role of the IL-33/ST2 axis. BALB/c mice deficient in ST2 or treated with recombinant IL-33 and infected with L. donovani revealed that IL-33 downregulates the expression of Th1 key cytokines (IL-12, IFN-γ) and the recruitment of neutrophils and monocytes. Finally, IL-33 acts as a susceptibility factor during visceral leishmaniasis. Besides, the model of L. donovani infected C57BL/6 mice deficient in IL-33 or treated with recombinant IL-33 suggests possible differential roles of IL-33 depending on the immune environment related to the host genetic background.

Il-33

Leishmaniose Viscérale

Foie

Persistance parasitaire

Cellules étoilées hépatiques

Cytokines Th1

Chimiokines

Polynucléaires neutrophiles

Monocytes/Macrophages.

Il-33

Visceral Leishmaniasis

Liver

Parasite persistence

Hepatic Stellate cells

Th1 cytokines

Chemokines

Polymorphonuclear neutrophils

Monocytes/Macrophages.

Efeito anti-fibrogênico do doador de óxido nítrico S-nitroso-N-acetilcisteína (SNAC) na esteato-hepatite não alcóolica experimental / Anti-fibrogenic effect of the nitric oxide donor S-nitroso-Nacetylcysteine (SNAC) in experimental non-alcoholic steatohepatitis

Mazo, Daniel Ferraz de Campos

30 January 2012

Introdução: Já foi mostrado que o óxido nítrico (NO) age como um potente inibidor da peroxidação lipídica, um dos principais contribuintes para a fibrogênese na esteatohepatite não-alcoólica (EHNA). O S-Nitroso-N-acetilcisteína (SNAC), um doador de NO, modula a ativação de células estreladas hepáticas e tem mostrado efeitos benéficos na EHNA experimental. O objetivo deste estudo foi avaliar a eficácia do SNAC como um agente anti-fibrogênico na EHNA experimental. Métodos: Ratos Sprague-Dawley adultos foram alimentados com dieta hiperlipídica deficiente em colina e expostos a dietilnitrosamina (DEN) durante 8 semanas. Dez animais receberam SNAC (1,4 mg/ kg) por gavagem diariamente (grupo SNAC) e 10 receberam veículo (grupo EHNA). Três animais receberam somente dieta padrão e veículo (grupo Controle). Após este período, os animais foram sacrificados e o tecido hepático retirado para avaliação histológica, quantificação do colágeno e análises de expressão gênica. Genes relacionados à fibrose [metaloproteinase de matriz (MMP)- 2, 9 e 13, e, TGF b -1, colágeno-1a, inibidor tecidual de metaloproteinase (TIMP)-1 e 2] e genes relacionados ao estresse oxidativo [proteínas de choque térmico (HSP)-60 e 90] foram avaliados. Resultados: O SNAC levou a atenuação da fibrose hepática verificada pela quantificação de colágeno, e este efeito foi associado com supra-regulação da MMP- 13, MMP-9 e infra-regulação da HSP-60, TIMP-2, TGF b -1 e colágeno-1a. Conclusões: O SNAC apresenta propriedades anti-fibrogênicas no modelo de EHNA empregado, infra-regula moléculas pró-fibrogênicas e supra-regula a MMP-13, um fator determinante da degradação do colágeno intersticial. Nossa hipótese é que o SNAC, pela redução do estresse oxidativo, leva a um padrão de expressão gênica que favorece uma maior remoção de colágeno, com conseqüente atenuação da fibrose hepática na EHNA, sugerindo que SNAC é um potencial agente anti-fibrogênico neste contexto / Introduction: Nitric oxide (NO) has already been shown to act as a potent inhibitor of lipid peroxidation, a major contributor for fibrogenesis in nonalcoholic steatohepatitis (NASH). S-Nitroso-N-acetylcysteine (SNAC), an NO donor, modulates hepatic stellate cells activation and has shown beneficial effects on experimental NASH. The aim of this study was to evaluate the effectiveness of SNAC as an antifibrogenic agent in experimental NASH. Methods: Adult Sprague-Dawley rats were fed choline-deficient high fat diet and exposed to diethylnitrosamine during 8 weeks, during which 10 animals received SNAC (1.4 mg/kg) by daily gavage (SNAC group) and 10 animals received vehicle (NASH group). Another group (Control; n=3) received only standard diet and vehicle. After this period, liver tissue was obtained for histological study, collagen quantification and gene expression analyses. Genes related to fibrosis [matrix metalloproteinase (MMP)-13, 9 and 2, TGFb-1, collagen-1a, tissue inhibitor of metalloproteinase (TIMP)-1 and 2] and genes related to oxidative stress [heat-shock protein (HSP)-60 and 90] were evaluated. Results: SNAC led to attenuation of liver fibrosis, verified through collagen quantification, and this effect was associated with up-regulation of MMP-13, MMP-9 and down-regulation of HSP-60, TIMP-2, TGFb-1 and collagen-1a. Conclusions: SNAC shows antifibrogenic properties in the NASH model employed, down-regulates profibrogenic molecules and up-regulates MMP-13, a key determinant of interstitial collagen degradation. We hypothesize that SNAC, through oxidative stress lowering, leads to a gene expression pattern that favors greater collagen removal, with consequent attenuation of liver fibrosis in NASH. Our findings suggest that SNAC is a potential antifibrogenic agent in this setting

Células estreladas do fígado

Esteatohepatite

Estresse oxidativo

Fatty liver

Fibrose

Fibrosis

Hepatic stellate cells

Modelos animais

Models animal

Nitric oxide

Oxidative stress

Óxido nítrico

S-nitroso-N-acetilcisteína

S-nitroso-N-acetylcysteine

The Role of Lhx2 During Organogenesis : - Analysis of the Hepatic, Hematopoietic and Olfactory Systems

Kolterud, Åsa

January 2004

During embryonic development a variety of tissues and organs such as the lung, eye, and kidney are being formed. The generation of functional organs is regulated by reciprocal cell-cell interactions. Via the secretion of soluble molecules one type of cells affect the fate of their neighboring cells. A central issue in organogenesis is how a cell interprets such extrinsic signals and adopts a specific fate, and how the cell in response to this signal establishes reciprocal signaling. Transcription factors play a critical role in this process and my thesis focuses on the role of the LIM-homeodomain transcription factor, Lhx2, in the development of three different organ systems, the liver, the hematopoietic system and the olfactory system. The liver is formed from endoderm of the ventral foregut and mesenchyme of the septum transversum (st) and its development depends upon signaling interactions between these two tissues. As the liver becomes a distinct organ it is colonized by hematopoietic cells and serves as hematopoietic organ until birth. The fetal liver provides a microenvironment that supports the expansion of the entire hematopoietic system (HS) including the hematopoietic stem cells (HSCs). Liver development in Lhx2-/- embryos is disrupted leading to a lethal anemia due to insufficient support of hematopoiesis. To further investigate the role of Lhx2 in liver development I analyzed gene expression from the Lhx2 locus during liver development in wild-type and Lhx2-/- mice. Lhx2 is expressed in the liver associated st mesenchymal cells that become integrated in the liver and contribute to a subpopulation of hepatic stellate cells in adult liver. Lhx2 is not required for the formation of these mesenchymal cells, suggesting that the phenotype in Lhx2-/- livers is due to the presence of defective mesenchymal cells. The putative role of Lhx2 in the expansion of the HS was examined by introducing Lhx2 cDNA into embryonic stem cells differentiated in vitro. This approach allowed for the generation of immortalized multipotent hematopoietic progenitor cell (HPC) lines that share many characteristics with normal HSCs. The Lhx2-dependent generation of HSC-like cell lines suggests that Lhx2 plays a role in the maintenance and/or expansion of the HS. To isolate genes putatively linked to Lhx2 function, genes differentially expressed in the HPC lines were isolated using a cDNA subtraction approach. This allowed for the identification of a few genes putatively linked to Lhx2 function, as well as several stem cell-specific genes. The antagonist of Wnt signalling, Dickkopf-1 (Dkk-1), was identified in the former group of genes as it showed a similar expression pattern in the fetal liver, as that of Lhx2 and expression of Dkk-1 in fetal liver and in HPC lines appeared to be regulated by Lhx2. This suggests that Dkk-1 plays a role in liver development and/or HSC physiology during embryonic development. During development of the olfactory epithelium (OE) neuronal progenitors differentiate into mature olfactory sensory neurons (OSNs) that are individually specified into over a thousand different subpopulations, each expressing a unique odorant receptor (OR) gene. The expression of Lhx2 in olfactory neurons suggested a potential role for Lhx2 in the development of OSNs. To address this OE from Lhx2-/- and wild-type mice was compared. In the absence of functional Lhx2 neuronal differentiation was arrested prior to onset of OR expression. Lhx2 is thus required for the development of OSN progenitors into functional, individually specified OSNs. Thus, Lhx2 trigger a variety of cellular responses in different organ systems that play important roles in organ development in vivo and stem cell expansion in vitro.

Developmental biology

LIM-homeobox gene

Lhx2

fetal liver

hepatic stellate cells

hematopoietic stem cells

septum transversum

self-renewal

odorant receptor genes

olfactory epithelium

olfactory sensory neuron

Utvecklingsbiologi

Developmental biology

Utvecklingsbiologi

Formation Mechanism and Computational Modelling of Isle of Rum Plagioclase Stellates

Zhang, Steven

26 April 2013

We propose a hypothesis and a numerical model for the formation of branching plagioclase textures visible at both macroscopic (∼cm to ∼m) and microscopic scale within melagabbro of the Isle of Rum, Scotland, based on macroscopic, microscopic observations and relevant geological history. The plagioclase crystals are typically linked as twins and form meshes of planar stellate structures (m-scale) with a large range in geometrical organization from patchy to radiating. Evidence of macroscopic crystal aggregation and alignment is attributed to interfacial free energy minimization at the microscopic scale during growth. Accordingly, a binary immiscible Lattice Boltzmann model was developed to simulate diffusion of simplified plagioclase in the melt phase. Isothermal phase transitions modelled via first order chemical reactions are subsequently coupled with stochastic dynamics at the crystal growth front to simulate energy minimization processes including twinning during crystallization in an igneous environment. The solid phase and the liquid phase are coupled with a temporal flexibility that sets the overall ratio between the rate of diffusion and chemical enrichment in the liquid state and the rate of crystallization. The parameter space of the model is explored extensively, followed by a reasonable transcription of physical parameters and an estimation of other parameters to construct realistic simulation scenarios yielding synthetic plagioclase stellates. The results are presented, analyzed and discussed. They appear to be in reasonable qualitative agreement with observations, and several aspects of the natural stellates such as the stellate spacing and long continuous stretches of plagioclase with epitaxial junctions seem to be in reasonable quantitative agreement with observations.

plagioclase stellate

Rum

plagioclase stellates

Lattice Boltzmann

Immiscible

spinodal decomposition

epitaxy

phase transition

phase transitions

stochastic

formation hypothesis

plagioclase rays

plagioclase networks

macroscopic pattern

pattern formation

twinning

numerical model

unmixing

nucleation

crystallization

Efeito anti-fibrogênico do doador de óxido nítrico S-nitroso-N-acetilcisteína (SNAC) na esteato-hepatite não alcóolica experimental / Anti-fibrogenic effect of the nitric oxide donor S-nitroso-Nacetylcysteine (SNAC) in experimental non-alcoholic steatohepatitis

Daniel Ferraz de Campos Mazo

30 January 2012

Introdução: Já foi mostrado que o óxido nítrico (NO) age como um potente inibidor da peroxidação lipídica, um dos principais contribuintes para a fibrogênese na esteatohepatite não-alcoólica (EHNA). O S-Nitroso-N-acetilcisteína (SNAC), um doador de NO, modula a ativação de células estreladas hepáticas e tem mostrado efeitos benéficos na EHNA experimental. O objetivo deste estudo foi avaliar a eficácia do SNAC como um agente anti-fibrogênico na EHNA experimental. Métodos: Ratos Sprague-Dawley adultos foram alimentados com dieta hiperlipídica deficiente em colina e expostos a dietilnitrosamina (DEN) durante 8 semanas. Dez animais receberam SNAC (1,4 mg/ kg) por gavagem diariamente (grupo SNAC) e 10 receberam veículo (grupo EHNA). Três animais receberam somente dieta padrão e veículo (grupo Controle). Após este período, os animais foram sacrificados e o tecido hepático retirado para avaliação histológica, quantificação do colágeno e análises de expressão gênica. Genes relacionados à fibrose [metaloproteinase de matriz (MMP)- 2, 9 e 13, e, TGF b -1, colágeno-1a, inibidor tecidual de metaloproteinase (TIMP)-1 e 2] e genes relacionados ao estresse oxidativo [proteínas de choque térmico (HSP)-60 e 90] foram avaliados. Resultados: O SNAC levou a atenuação da fibrose hepática verificada pela quantificação de colágeno, e este efeito foi associado com supra-regulação da MMP- 13, MMP-9 e infra-regulação da HSP-60, TIMP-2, TGF b -1 e colágeno-1a. Conclusões: O SNAC apresenta propriedades anti-fibrogênicas no modelo de EHNA empregado, infra-regula moléculas pró-fibrogênicas e supra-regula a MMP-13, um fator determinante da degradação do colágeno intersticial. Nossa hipótese é que o SNAC, pela redução do estresse oxidativo, leva a um padrão de expressão gênica que favorece uma maior remoção de colágeno, com conseqüente atenuação da fibrose hepática na EHNA, sugerindo que SNAC é um potencial agente anti-fibrogênico neste contexto / Introduction: Nitric oxide (NO) has already been shown to act as a potent inhibitor of lipid peroxidation, a major contributor for fibrogenesis in nonalcoholic steatohepatitis (NASH). S-Nitroso-N-acetylcysteine (SNAC), an NO donor, modulates hepatic stellate cells activation and has shown beneficial effects on experimental NASH. The aim of this study was to evaluate the effectiveness of SNAC as an antifibrogenic agent in experimental NASH. Methods: Adult Sprague-Dawley rats were fed choline-deficient high fat diet and exposed to diethylnitrosamine during 8 weeks, during which 10 animals received SNAC (1.4 mg/kg) by daily gavage (SNAC group) and 10 animals received vehicle (NASH group). Another group (Control; n=3) received only standard diet and vehicle. After this period, liver tissue was obtained for histological study, collagen quantification and gene expression analyses. Genes related to fibrosis [matrix metalloproteinase (MMP)-13, 9 and 2, TGFb-1, collagen-1a, tissue inhibitor of metalloproteinase (TIMP)-1 and 2] and genes related to oxidative stress [heat-shock protein (HSP)-60 and 90] were evaluated. Results: SNAC led to attenuation of liver fibrosis, verified through collagen quantification, and this effect was associated with up-regulation of MMP-13, MMP-9 and down-regulation of HSP-60, TIMP-2, TGFb-1 and collagen-1a. Conclusions: SNAC shows antifibrogenic properties in the NASH model employed, down-regulates profibrogenic molecules and up-regulates MMP-13, a key determinant of interstitial collagen degradation. We hypothesize that SNAC, through oxidative stress lowering, leads to a gene expression pattern that favors greater collagen removal, with consequent attenuation of liver fibrosis in NASH. Our findings suggest that SNAC is a potential antifibrogenic agent in this setting

Células estreladas do fígado

Esteatohepatite

Estresse oxidativo

Fibrose

Modelos animais

Óxido nítrico

S-nitroso-N-acetilcisteína

Fatty liver

Fibrosis

Hepatic stellate cells

Models animal

Nitric oxide

Oxidative stress

S-nitroso-N-acetylcysteine

Formation Mechanism and Computational Modelling of Isle of Rum Plagioclase Stellates

Zhang, Steven

January 2013

We propose a hypothesis and a numerical model for the formation of branching plagioclase textures visible at both macroscopic (∼cm to ∼m) and microscopic scale within melagabbro of the Isle of Rum, Scotland, based on macroscopic, microscopic observations and relevant geological history. The plagioclase crystals are typically linked as twins and form meshes of planar stellate structures (m-scale) with a large range in geometrical organization from patchy to radiating. Evidence of macroscopic crystal aggregation and alignment is attributed to interfacial free energy minimization at the microscopic scale during growth. Accordingly, a binary immiscible Lattice Boltzmann model was developed to simulate diffusion of simplified plagioclase in the melt phase. Isothermal phase transitions modelled via first order chemical reactions are subsequently coupled with stochastic dynamics at the crystal growth front to simulate energy minimization processes including twinning during crystallization in an igneous environment. The solid phase and the liquid phase are coupled with a temporal flexibility that sets the overall ratio between the rate of diffusion and chemical enrichment in the liquid state and the rate of crystallization. The parameter space of the model is explored extensively, followed by a reasonable transcription of physical parameters and an estimation of other parameters to construct realistic simulation scenarios yielding synthetic plagioclase stellates. The results are presented, analyzed and discussed. They appear to be in reasonable qualitative agreement with observations, and several aspects of the natural stellates such as the stellate spacing and long continuous stretches of plagioclase with epitaxial junctions seem to be in reasonable quantitative agreement with observations.

plagioclase stellate

Rum

plagioclase stellates

Lattice Boltzmann

Immiscible

spinodal decomposition

epitaxy

phase transition

phase transitions

stochastic

formation hypothesis

plagioclase rays

plagioclase networks

macroscopic pattern

pattern formation

twinning

numerical model

unmixing

nucleation

crystallization

Three Stage Level Set Segmentation of Mass Core, Periphery, and Spiculations for Automated Image Analysis of Digital Mammograms

Ball, John E

05 May 2007

In this dissertation, level set methods are employed to segment masses in digital mammographic images and to classify land cover classes in hyperspectral data. For the mammography computer aided diagnosis (CAD) application, level set-based segmentation methods are designed and validated for mass periphery segmentation, spiculation segmentation, and core segmentation. The proposed periphery segmentation uses the narrowband level set method in conjunction with an adaptive speed function based on a measure of the boundary complexity in the polar domain. The boundary complexity term is shown to be beneficial for delineating challenging masses with ill-defined and irregularly shaped borders. The proposed method is shown to outperform periphery segmentation methods currently reported in the literature. The proposed mass spiculation segmentation uses a generalized form of the Dixon and Taylor Line Operator along with narrowband level sets using a customized speed function. The resulting spiculation features are shown to be very beneficial for classifying the mass as benign or malignant. For example, when using patient age and texture features combined with a maximum likelihood (ML) classifier, the spiculation segmentation method increases the overall accuracy to 92% with 2 false negatives as compared to 87% with 4 false negatives when using periphery segmentation approaches. The proposed mass core segmentation uses the Chan-Vese level set method with a minimal variance criterion. The resulting core features are shown to be effective and comparable to periphery features, and are shown to reduce the number of false negatives in some cases. Most mammographic CAD systems use only a periphery segmentation, so those systems could potentially benefit from core features.

Level Sets

Stellate Lesions

Level Sets

Image segmentation

Image enhancement

Feature Extraction

Digital Mammography

Discriminant Analysis

Adaptive systems

Breast Cancer

Cancer

Classification

Computer Aided Diagnosis

Spiculations

Image Segmentation

Digital Mammography

Computer Aided Diagnosis

Tumor

Mammography

Receiver Operating Characteristics

Chan-Vese

Papel de IRS2 en la regulación de la comunicación a través de FGFs en el nicho de células progenitoras hepáticas

Arámbul Anthony, María José

28 October 2022

[ES] La resistencia a la insulina se define como un aumento en la cantidad de insulina necesaria para conseguir la homeostasis de glucosa. Una de las complicaciones más comunes de la resistencia a la insulina es el defecto en la reparación de herida. El sustrato 2 del receptor de la insulina (IRS2) es un mediador clave para la señalización de insulina en hígado que actúa de puente entre los receptores de la insulina y del factor de crecimiento insulínico (IGF-1) y sus cascadas de señalización. Tanto la resistencia a la insulina como cambios en los niveles de expresión de IRS2 han sido asociados con el desarrollo y la progresión de enfermedades hepáticas graves. El daño hepático crónico generado por algunos factores derivados de la resistencia a la insulina ha sido establecido como determinante en la patofisiología de las enfermedades hepáticas. Sin embargo, sigue siendo una incógnita cómo el daño hepático generado por la resistencia a la insulina escapa de la extraordinaria capacidad de regeneración del hígado. Durante el daño hepático crónico, la reparación epitelial está mediada por las células progenitoras hepáticas (CPH) que se expanden y diferencian hasta hepatocitos o células biliares rodeadas de un nicho estromal formado por un conjunto de células estrelladas hepáticas (CEH), células inflamatorias, componentes de la matriz extracelular (ECM) y factores de crecimiento. El factor de crecimiento de fibroblastos 7 (FGF7), expresado por las CEH, resulta crítico para la respuesta de las CPH y para la regeneración hepática. Durante el daño hepático crónico las CEH se activan transdiferenciandose desde células quiescentes a células fibrogénicas (CEHa) denominadas miofibroblastos que depositan ECM para reemplazar el tejido dañado. Para alcanzar una correcta regeneración hepática se requiere la resolución de la activación ("reversión fibrogénica") de las CEH. Empleando el modelo de ratón Irs2-/- durante el daño hepático crónico con la dieta DDC 0.1% y los modelos in vitro humanos de CPH (HepaRG) y de CEH (CEH primarias y la línea celular LX-2), los resultados de este trabajo demuestran que la señalización de insulina-IRS2 es necesaria para la epitelización dirigida por la comunicación paracrina a través de FGF7 en el nicho de CPH. Por un lado, IRS2 es necesario en la población de CEH para permitir su supervivencia durante la reversión fibrogénica, un proceso que según nuestros resultados induce un aumento en la expresión de FGF7. Nuestros datos descubren un potencial mecanismo de regulación mediante el que IRS2 induce la expresión de FGF7 en CEH a través de la remodelación en la ECM mediada por NRF2 y el integrante de la ECM SERPINE1 durante las etapas tempranas de la reversión fibrogénica. El eje NRF2-SERPINE1 ha sido descrito anteriormente en fibroblastos de piel como esencial para la reepitelización de herida. NRF2 es el principal factor de transcripción de respuesta frente al estrés oxidativo (ruta canónica). En hepatocitos, la activación de NRF2 también puede inducirse a través de una ruta no canónica mediada por la proteína cargo de la autofagia P62. A pesar de que nuestros datos descubren a P62 como capaz de inducir la actividad de NRF2 en CPH, también demuestran que IRS2 activa a NRF2 en CPH y en CEH de manera independiente a la ruta no canónica mediada por P62. Por otro lado, demostramos que la señalización de insulina-IRS2, por promover la producción de FGF7, permite un novedoso bucle de inducción positiva mediante el que la respuesta a FGF7 en CPH promueve la expresión de su receptor, FGFR2b, favoreciendo su propia sensibilidad y sosteniendo la reparación epitelial. Futuras estrategias para potenciar en hígado la actividad de NRF2 y la señalización de FGF7 podrían servir para mejorar el pronóstico de los pacientes con resistencia a la insulina, diabetes o enfermedad metabólica por promover la reparación epitelial en hígado y reducir su riesgo de desarrollar patologías hepáticas graves con elevada tasa de mortalidad. / [CAT] La resistència a la insulina es defineix com un augment en la quantitat d'insulina necessària per a aconseguir l'homeòstasi de glucosa. Una de les complicacions més freqüents de la resistència a la insulina és el defecte en la reparació de ferida. El substrat 2 del receptor de la insulina (IRS2) és un mediador clau per a la senyalització d'insulina en fetge que actua de pont entre els receptors de la insulina i del factor de creixement insulínic (IGF-1) i les seues cascades de senyalització. Tant la resistència a la insulina com els canvis en els nivells d'expressió d'IRS2 han sigut associats amb el desenvolupament i la progressió de malalties hepàtiques greus. El mal hepàtic crònic generat per alguns factors derivats de la resistència a la insulina s'ha establert com a determinant en la patofisiologia de les malalties hepàtiques. No obstant això, els motius pels quals el mal hepàtic generat per la resistència a la insulina escapa a l'extraordinària capacitat de regeneració del fetge són encara una incògnita. Durant el mal crònic, la reparació epitelial està mediada per les cèl·lules progenitores hepàtiques (CPH) que s'expandeixen i diferencien fins a hepatòcits o cèl·lules biliars envoltades d'un nínxol estromal format per un conjunt de cèl·lules estavellades hepàtiques (CEH), cèl·lules inflamatòries, components de la matriu extracelul·lar (ECM) i factors de creixement. El factor de creixement de fibroblasts 7 (FGF7), expressat en fetge per les CEH, resulta crític per a la resposta de les CPH i per a la regeneració hepàtica. Durant el mal hepàtic crònic les CEH s'activen transdiferenciant-se des de cèl·lules quiescents a cèl·lules fibrogèniques denominades miofibroblasts (CEH activades) que depositen ECM per a reemplaçar el teixit danyat. Per a aconseguir una correcta regeneració hepàtica es requereix la resolució de l'activació ("reversió fibrogènica") de les CEH. A partir de l'ús del model de ratolí Irs2-/- durant el mal hepàtic crònic amb la dieta DDC 0.1% i dels models in vitro humans de CPH (HepaRG) i de CEH (CEH primàries i la línia cel·lular LX-2), els resultats d'aquest treball demostren que la senyalització d'insulina-IRS2 és necessària per a l'epitelització dirigida per la comunicació paracrina mitjançant FGF7 en el nínxol de CPH. D'una banda, IRS2 és necessari en la població de CEH per a permetre la seua supervivència durant la reversió fibrogènica, que comporta un augment en l'expressió de FGF7. Les nostres dades descobreixen un potencial mecanisme de regulació mitjançant el qual IRS2 indueix l'expressió de FGF7 en CEH a través de la remodelació en la ECM mediada per NRF2 i per l'integrant de la ECM SERPINE1, que ocorre en les etapes primerenques de la reversió fibrogènica. L'eix NRF2-SERPINE1 ha sigut identificat anteriorment en fibroblasts de pell com a essencial per a la reparació de ferida. NRF2 és el principal factor de transcripció de resposta davant de l'estrés oxidatiu (ruta canònica). En hepatòcits, l'activació de NRF2 també pot induir-se a través d'una ruta no canònica mediada per la proteïna de càrrega de l'autofàgia P62. A pesar que les nostres dades indiquen que P62 és capaç d'induir l'activitat de NRF2 en CPH, també demostren que IRS2 activa NRF2 en CPH i CEH de manera independent a la ruta no canònica mediada per P62. D'altra banda, demostrem que la senyalització d'insulina-IRS2, per promoure la producció de FGF7, permet un nou bucle d'inducció positiva mitjançant el qual la resposta a FGF7 en CPH promou l'expressió del seu receptor, FGFR2b, afavorint la seua pròpia sensibilitat i sostenint la reparació epitelial. Futures estratègies per a potenciar en fetge l'activitat de NRF2 i la senyalització de FGF7 podrien servir per a millorar el pronòstic dels pacients amb resistència a la insulina, diabetis o malaltia metabòlica, per promoure la reparació epitelial en fetge i reduir, per tant, el seu risc de desenvolupar patologies hepàtiques greus amb elevada taxa de mortalitat. / [EN] Insulin resistance is defined as an increase in the amount of insulin that is necessary to achieve glucose homeostasis. One of the most prevalent complications of insulin resistance is the wound healing defect. Insulin receptor factor 2 (IRS2) is a key mediator of the insulin signaling in liver, which acts as a bridge between insulin and insulin growth factor 1 (IGF-1) receptors and its downstream molecular pathways. Both, insulin resistance and changes in the expression levels of IRS2, have been associated with the development and progression of severe liver diseases. Chronic liver injury produced by insulin resistance has been stablished as crucial in the pathophysiology of liver disease. However, it remains unknown how the chronic liver injury produced by insulin resistance escapes from the extraordinary ability of the liver to regenerate. During chronic liver injury, epithelial repair is mediated by liver progenitor cells (LPC), that expand and differentiate into hepatocytes and cholangiocytes surrounded by a stromal niche that consist of hepatic stellate cells (HSC), inflammatory cells, extracellular matrix (ECM) components and growth factors. Fibroblast growth factor 7 (FGF7), expressed by HSC, is critic for LPC response and liver regeneration. During chronic liver injury, HSC transdifferentiate from quiescent to active fibrogenic HSC (aHSC) called myofibroblast. aHSC deposit ECM to replace damaged tissue. A successful regeneration requires the resolution of the HSC activation, i.e., the "fibrogenic reversion" of HSC. Using the Irs2-/- mice model during chronic liver damage induced by 0.1% DDC diet and the human in vitro models of LPC (HepaRG) and HSC (primary HSC and the cell line LX-2), our results reveal a new role of insulin-IRS2 in the modulation of the paracrine FGF7 crosstalk in the LPC niche that drives LPC epithelization. On the one hand, IRS2 is necessary in HSC to allow survival during fibrogenic reversion, a process that according to our data induces an increase in FGF7 expression. Our results reveal a potential mechanism by which IRS2 promotes FGF7 expression in HSC through an ECM remodeling process that is mediated by NRF2 and the ECM constituent SERPINE1 during the early stages of fibrogenic reversion. NRF2-SERPINE1-mediated ECM remodeling has been previously identified in skin fibroblast as essential to promote re-epithelialization of wounds. NRF2 is a transcription factor that is activated in response to oxidative stress (canonical pathway). NRF2 activation in hepatocytes can be also induced by a non-canonical pathway mediated by the autophagy cargo protein P62. Although our data discovers a new ability of P62 to induce NRF2 activity in LPC, we also demonstrate that IRS2 activates NRF2 in LPC and HSC in a P62-independent manner. On the other hand, we demonstrate that insulin-IRS2 signaling, by promoting FGF7 production, enables a novel positive induction loop whereby FGF7 response in LPC promotes the expression of its receptor, FGFR2b, favoring its own sensitivity and sustaining epithelial repair. Future strategies to enhance NRF2 activity or FGF7 signaling in liver might be useful to improve the prognosis of insulin resistance, diabetic, and metabolic disease patients because of its uncovered ability to promote epithelial repair, thus, preventing the development of severe liver pathologies with high mortality risk. / Arámbul Anthony, MJ. (2022). Papel de IRS2 en la regulación de la comunicación a través de FGFs en el nicho de células progenitoras hepáticas [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/188913

Insulin resistance

Liver diseases

Chronic liver damage

Hepatic progenitor cells

Hepatic stellate cells

Hepatic regeneration

Diabetes

Enfermedades hepáticas

Daño hepático crónico

IRS2

FGF7

Células progenitoras hepáticas

Células estrelladas hepáticas

Regeneración hepática

Resistencia a la insulina

Comparação entre os resultados da expressão gênica da desmina, alfa-actina e TGF-beta1 obtidos a partir dos métodos da reação em cadeia de polimerase via transcriptase reversa (RT-PCR) semiquantitativa e em tempo real (qRT-PCR) no modelo / Comparison between the results of gene expression of desmin, alpha-actin and TGF-beta1 obtained from the methods of reverse transcriptase polymerase chain reaction (RT-PCR) semiquantitative and real-time (qRT-PCR) in model of selective bile ducts ligation in growing animals

Gonçalves, Josiane de Oliveira

10 April 2014

Os mecanismos responsáveis pela fibrose hepática na infância são pouco conhecidos. Crianças com atresia das vias biliares, quando submetidas a portoenterostomia a Kasai com sucesso, se tornam anictéricas mas mesmo assim desenvolvem cirrose a longo prazo. Da mesma forma, a ocorrência de estenoses biliares segmentares intra-hepáticas no pós-operatório de transplante hepático podem levar ao desenvolvimento de cirrose em todo o órgão. Tais fatos sugerem que mecanismos endócrinos ou parácrinos estejam envolvidos na fibrogênese hepática. Para elucidar este processo o modelo de ligadura seletiva das vias biliares em ratos jovens foi desenvolvido em nosso laboratório. Usando este modelo, identificamos mudanças na expressão do gene da alfa-actina de músculo liso, tanto no parênquima hepático obstruído como no parênquima hepático adjacente à obstrução. No entanto, o perfil de expressão gênica da desmina, uma proteína presente em níveis elevados durante a ativação das células estreladas hepáticas e o TGF-beta1, principal citocina pró-fibrogênica, não demostraram diferenças significantes quando analisados pelo método do RT-PCR semiquantitativo. Assim, os mecanismos moleculares envolvidos na modulação da fibrogênese hepática nesse modelo experimental não estão totalmente compreendidos. A metodologia do qRT-PCR (PCR em tempo real), têm sido previamente descrita como um método mais preciso e sensível, possibilitando a detecção do aumento do número de cópias do gene à medida que ocorre a amplificação, enquanto que o método do RT-PCR semiquantitativo a análise dos transcritos só é realizada após a etapa da amplificação. O objetivo deste estudo foi avaliar as alterações moleculares no modelo experimental de ligadura seletiva das vias biliares e comparar os resultados obtidos entre os métodos do RT-PCR semiquantitativo e do qRT-PCR em tempo real. Foi realizada a ligadura seletiva do ducto biliar em ratos Wistar com 21 dias de vida, os grupos foram separados de acordo com o momento da morte: 7 ou 60 dias após a cirurgia. A expressão da desmina, alfa actina de músculo liso e TGF-beta1 foi avaliada no tecido do parênquima hepático com obstrução biliar (ducto ligado - DL) e no parênquima hepático adjacente à obstrução biliar (ducto não ligado - DNL) usando o RT-PCR semiquantitativo e o qRT-PCR em tempo real. A metodologia do qRT-PCR em tempo real permitiu identificar mudanças no perfil de expressão gênica que não foram demonstrados pelo método semiquantitativo. O parênquima DL mostrou reação fibrogênica mais intensa, com aumento na expressão da alfa actina de músculo liso e TGF-beta1 após 7 dias. O parênquima DNL apresentou resposta fibrogênica tardia, com aumento da expressão da desmina 7 dias e 60 dias após a cirurgia, além de aumento da alfa-actina de músculo liso 60 dias após a cirurgia. O qRT-PCR em tempo real apresentou maior sensibilidade para identificar mudanças no perfil de expressão gênica em relação ao método convencional do RT-PCR semiquantitativo. Nossos resultados ajudam a esclarecer a dinâmica das alterações moleculares envolvidas na modulação da fibrogênese hepática no modelo experimental de ligadura seletiva do ducto biliar e pode ser diretamente aplicado para o estudo de estenoses biliares intra-hepáticas e atresia das vias biliares / The mechanisms responsible for liver fibrosis in childhood are poorly understood. Children suffering from biliary atresia, when submitted to the successful Kasai portoentostomy, become anicteric, but nonetheless develop cirrhosis in the long term. Similarly, the occurrence of intrahepatic biliary stenosis in the postoperative period of liver transplantation may lead to cirrhosis of the whole organ. Such facts suggest that endocrine or paracrine mechanisms are involved in hepatic fibrogenesis. To elucidate this process, the selective bile duct ligation model in young rats was developed in our laboratory. Using this model, we identified changes in the expression of smooth muscle alpha-actin both in the obstructed parenchyma and the hepatic parenchyma adjacent to the obstruction. However, the expression profiles of desmin, a protein present at high levels during activation of hepatic stellate cells and TGF-beta1, the main pro-fibrogenic cytokine, were unchanged when analyzed with semiquantitative RT-PCR. Thus, the molecular mechanisms involved in the modulation of hepatic fibrogenesis in this experimental model are not fully understood. The methodology of qRT-PCR (real time PCR) has previously been described as a more precise and sensitive method, allowing the detection of increased copy number of the gene while amplification occurs, whereas by semiquantitative RT-PCR analysis transcripts is only perfomed after the amplification step. This study aimed to evaluate the molecular changes in experimental model of selective bile duct ligation and compare the results between semiquantitative RT-PCR and real-time qRT-PCR methods. Selective biliary duct ligation was performed on Wistar rats with 21 days of life, the groups were separated according to the moment of death: 7 or 60 days after surgery. The expression of desmin, alpha-actin smooth muscle and TGF-beta1 was examined in tissue from hepatic parenchyma with biliary obstruction (duct ligation - DL) and in the adjacent hepatic parenchyma (duct non-ligated - DNL) using semiquantitative RT-PCR and real-time qRT-PCR. The methodology of the real-time qRT-PCR allowed to identify changes in gene expression profile that were not shown by semiquantitative method. The DL parenchyma showed a more severe fibrogenic reaction, with increased alpha-actin smooth muscle and TGF-beta1 expression after 7 days. The DNL parenchyma presented a later fibrotic response, with increased desmin expression 7 and 60 days after surgery, besides of increased alpha-actin smooth muscle 60 days after surgery. Real-time qRT-PCR was more sensitive to identify changes in gene expression profile comparated to the semiquantitative method. Our results help to clarify the dynamic of molecular changes involved in the modulation of hepatic fibrogenesis in an experimental model of selective bile duct ligation and can be directly applied to the study of intrahepatic biliary stenosis and biliary atresia

Actin-alpha

Actina-alfa

Bile ducts

Células estreladas do fígado

Cholestasis

Colestase

Desmin

Desmina

Ductos biliares

Fibrose

Fibrosis

Hepatic stellate cells

Ratos Wistar

Rats Wistar

Real-time polymerase chain reaction

Transforming growth factor beta 1

Comparação entre os resultados da expressão gênica da desmina, alfa-actina e TGF-beta1 obtidos a partir dos métodos da reação em cadeia de polimerase via transcriptase reversa (RT-PCR) semiquantitativa e em tempo real (qRT-PCR) no modelo / Comparison between the results of gene expression of desmin, alpha-actin and TGF-beta1 obtained from the methods of reverse transcriptase polymerase chain reaction (RT-PCR) semiquantitative and real-time (qRT-PCR) in model of selective bile ducts ligation in growing animals

Josiane de Oliveira Gonçalves

10 April 2014

Os mecanismos responsáveis pela fibrose hepática na infância são pouco conhecidos. Crianças com atresia das vias biliares, quando submetidas a portoenterostomia a Kasai com sucesso, se tornam anictéricas mas mesmo assim desenvolvem cirrose a longo prazo. Da mesma forma, a ocorrência de estenoses biliares segmentares intra-hepáticas no pós-operatório de transplante hepático podem levar ao desenvolvimento de cirrose em todo o órgão. Tais fatos sugerem que mecanismos endócrinos ou parácrinos estejam envolvidos na fibrogênese hepática. Para elucidar este processo o modelo de ligadura seletiva das vias biliares em ratos jovens foi desenvolvido em nosso laboratório. Usando este modelo, identificamos mudanças na expressão do gene da alfa-actina de músculo liso, tanto no parênquima hepático obstruído como no parênquima hepático adjacente à obstrução. No entanto, o perfil de expressão gênica da desmina, uma proteína presente em níveis elevados durante a ativação das células estreladas hepáticas e o TGF-beta1, principal citocina pró-fibrogênica, não demostraram diferenças significantes quando analisados pelo método do RT-PCR semiquantitativo. Assim, os mecanismos moleculares envolvidos na modulação da fibrogênese hepática nesse modelo experimental não estão totalmente compreendidos. A metodologia do qRT-PCR (PCR em tempo real), têm sido previamente descrita como um método mais preciso e sensível, possibilitando a detecção do aumento do número de cópias do gene à medida que ocorre a amplificação, enquanto que o método do RT-PCR semiquantitativo a análise dos transcritos só é realizada após a etapa da amplificação. O objetivo deste estudo foi avaliar as alterações moleculares no modelo experimental de ligadura seletiva das vias biliares e comparar os resultados obtidos entre os métodos do RT-PCR semiquantitativo e do qRT-PCR em tempo real. Foi realizada a ligadura seletiva do ducto biliar em ratos Wistar com 21 dias de vida, os grupos foram separados de acordo com o momento da morte: 7 ou 60 dias após a cirurgia. A expressão da desmina, alfa actina de músculo liso e TGF-beta1 foi avaliada no tecido do parênquima hepático com obstrução biliar (ducto ligado - DL) e no parênquima hepático adjacente à obstrução biliar (ducto não ligado - DNL) usando o RT-PCR semiquantitativo e o qRT-PCR em tempo real. A metodologia do qRT-PCR em tempo real permitiu identificar mudanças no perfil de expressão gênica que não foram demonstrados pelo método semiquantitativo. O parênquima DL mostrou reação fibrogênica mais intensa, com aumento na expressão da alfa actina de músculo liso e TGF-beta1 após 7 dias. O parênquima DNL apresentou resposta fibrogênica tardia, com aumento da expressão da desmina 7 dias e 60 dias após a cirurgia, além de aumento da alfa-actina de músculo liso 60 dias após a cirurgia. O qRT-PCR em tempo real apresentou maior sensibilidade para identificar mudanças no perfil de expressão gênica em relação ao método convencional do RT-PCR semiquantitativo. Nossos resultados ajudam a esclarecer a dinâmica das alterações moleculares envolvidas na modulação da fibrogênese hepática no modelo experimental de ligadura seletiva do ducto biliar e pode ser diretamente aplicado para o estudo de estenoses biliares intra-hepáticas e atresia das vias biliares / The mechanisms responsible for liver fibrosis in childhood are poorly understood. Children suffering from biliary atresia, when submitted to the successful Kasai portoentostomy, become anicteric, but nonetheless develop cirrhosis in the long term. Similarly, the occurrence of intrahepatic biliary stenosis in the postoperative period of liver transplantation may lead to cirrhosis of the whole organ. Such facts suggest that endocrine or paracrine mechanisms are involved in hepatic fibrogenesis. To elucidate this process, the selective bile duct ligation model in young rats was developed in our laboratory. Using this model, we identified changes in the expression of smooth muscle alpha-actin both in the obstructed parenchyma and the hepatic parenchyma adjacent to the obstruction. However, the expression profiles of desmin, a protein present at high levels during activation of hepatic stellate cells and TGF-beta1, the main pro-fibrogenic cytokine, were unchanged when analyzed with semiquantitative RT-PCR. Thus, the molecular mechanisms involved in the modulation of hepatic fibrogenesis in this experimental model are not fully understood. The methodology of qRT-PCR (real time PCR) has previously been described as a more precise and sensitive method, allowing the detection of increased copy number of the gene while amplification occurs, whereas by semiquantitative RT-PCR analysis transcripts is only perfomed after the amplification step. This study aimed to evaluate the molecular changes in experimental model of selective bile duct ligation and compare the results between semiquantitative RT-PCR and real-time qRT-PCR methods. Selective biliary duct ligation was performed on Wistar rats with 21 days of life, the groups were separated according to the moment of death: 7 or 60 days after surgery. The expression of desmin, alpha-actin smooth muscle and TGF-beta1 was examined in tissue from hepatic parenchyma with biliary obstruction (duct ligation - DL) and in the adjacent hepatic parenchyma (duct non-ligated - DNL) using semiquantitative RT-PCR and real-time qRT-PCR. The methodology of the real-time qRT-PCR allowed to identify changes in gene expression profile that were not shown by semiquantitative method. The DL parenchyma showed a more severe fibrogenic reaction, with increased alpha-actin smooth muscle and TGF-beta1 expression after 7 days. The DNL parenchyma presented a later fibrotic response, with increased desmin expression 7 and 60 days after surgery, besides of increased alpha-actin smooth muscle 60 days after surgery. Real-time qRT-PCR was more sensitive to identify changes in gene expression profile comparated to the semiquantitative method. Our results help to clarify the dynamic of molecular changes involved in the modulation of hepatic fibrogenesis in an experimental model of selective bile duct ligation and can be directly applied to the study of intrahepatic biliary stenosis and biliary atresia

Actina-alfa

Células estreladas do fígado

Colestase

Desmina

Ductos biliares

Fibrose

Ratos Wistar

Actin-alpha

Bile ducts

Cholestasis

Desmin

Fibrosis

Hepatic stellate cells

Rats Wistar

Real-time polymerase chain reaction

Transforming growth factor beta 1