Role of microRNAs in Hepatocarcinogenesis

Wang, Bo

18 June 2012

No description available.

Biomedical Research

Molecular Biology

Hepatocellular carcinoma (HCC)

hepatocarcinogenesis

nonalcoholic steatohepatitis (NASH)

microRNA

miR-155

miR-181b

Efeito do Yo Jyo Hen Shi Ko (YHK) no metabolismo lipídico na esteatohepatite experimental / Evaluation of Yo Jyo Hen Shi Ko (YHK) in hepatic lipid metabolism in experimental steatohepatitis

Pereira, Isabel Veloso Alves

19 May 2010

A Doença Hepática Gordurosa Não Alcoólica (DHGNA) é atualmente uma das formas mais comuns de doença hepática, e está diretamente relacionada com a obesidade. Estudos indicam uma prevalência por volta de 30% na população ocidental e 11% na população oriental. A DGHNA possui um largo espectro abrangendo desde casos de esteatose simples sem inflamação, até casos com esteatohepatite e fibrose, podendo evoluir para cirrose e carcinoma hepatocelular. A fisiopatogênese da DHGNA é baseada em múltiplos eventos: resistência insulínica, aumento da lipólise periférica, aumento da síntese de novo de lipídeos, estresse oxidativo, endotoxemia crônica no desencadeamento da inflamação e fibrose entre outros. A etapa inicial caracteriza-se pelo acúmulo de ácidos graxos no hepatócito, suplantando sua capacidade de metabolização e exportação conseqüente à ação lipogênica da insulina, desta forma o metabolismo de ácidos graxos está intimamente ligado ao desenvolvimento da DHGNA. O Yo Jyo Hen Shi Ko (YHK) é um composto natural usado na medicina japonesa para tratamento de doenças hepáticas e apresenta propriedades antioxidantes, antiinflamatórias e hipolipemiantes. O presente estudo teve como objetivo avaliar o efeito do YHK no metabolismo hepático de lipídeos. Para tanto, foram utilizados camundongos obesos (ob/ob) com esteatohepatite não alcoólica (ENA) induzida por dieta deficiente em colina e metionina (DCM) e foram analisados no tecido hepático, genes relacionados com a síntese de novo de lipídeos (SREBP1c, FASn), genes relacionados com a oxidação e exportação de lipídeos (CPT1a e SCD-1, MTP), assim como genes relacionados com o armazenamento de lipídeos (Perilipina e ADFP). O YHK apresentou um efeito citoprotetor hepático com melhora dos parâmetros histológicos neste modelo experimental de ENA. Associadamente, houve redução na expressão de genes relacionados à síntese de novo como SREBP e da FASn, quando se comparou o grupo tratado com DCM+YHK com o grupo não tratado DCM. Em contrapartida, houve aumento na expressão da MTP e da SCD-1 ocasionando uma maior exportação de triglicerídeos hepáticos nos animais que utilizaram o YHK. Ainda, o YHK modulou as proteínas Perilipina e ADFP. Por outro lado, não houve modificação na oxidação de lipídeos.. Conclui-se que o YHK pode ser uma droga promissora no tratamento da DHGNA, já que age modulando genes envolvidos na síntese e exportação de lipídeos hepáticos, reduzindo o acúmulo de gordura no hepatócito / Nonalcoholic fatty liver disease (NAFLD) is currently one of the most common forms of liver disease, related directly to the increase of obesity in the world. Previous studies indicate a prevalence of around 30% in the western population and 11% in the eastern. This disease covers cases from simple steatosis without inflammation to cases of steato hepatitis (NASH) and fibrosis and it may lead to liver cirrhosis and hepatocellular carcinoma. The pathophysiology of NAFLD is based on multiple events: insulin resistance, increased peripheral lipolysis, increased de novo lipogenesis, oxidative stress, endotoxemia in triggering chronic inflammation and fibrosis and others. The initial stage of the disease is characterized by the accumulation of fatty acids in hepatocytes caused by the lipogenic action of insulin. This condition results in the surpassing of the cells ability to metabolize and export. This way, the metabolism of fatty acids is closely linked to the development of NAFLD. The Yo Jyo Hen Shi Ko (YHK) is a natural compound used in Japanese medicine for the treatment of liver disease and it has antioxidant, anti-inflammatory and lipid lowering properties. This study aimed to evaluate the effect of YHK in the hepatic metabolism of lipids. An experimental model was designed using obese mice (ob/ob) affected by NASH induced by a deficient diet in choline and methionine (MCD). Then, genes from its hepatic tissue related to de novo lipogenesis (SREBP1c, FASN), to lipid oxidation and exportation (CPT1A and SCD-1, MTP) as well as genes related to lipid storage (Perilipin and ADFP) were analyzed. The YHK presented a cytoprotective effect, improving the hepatic histological parameters in this experimental model. Additionally, when comparing the group treated with MCD + YHK (diet + YHK) to the untreated MCD group (diet) there was a reduction in the expression of genes related to de novo synthesis like SREBP1c and FASn. However, an increased expression of MTP and SCD-1 were observed leading to a greater liver exportation of fatty acids in animals that were treated with YHK. Moreover, the YHK modulated the proteins Perilipin and ADFP. On the other hand, there was no changing in lipid oxidation. In summary, the YHK can be a promising drug for the treatment of NAFLD, as it acts by modulating genes involved in the synthesis and exportation of hepatic lipids, reducing the accumulation of fat in hepatocytes

Camundongos ob/ob

Esteatohepatite não alcoólica (ENA)

Mice ob/ob

Nonalcoholic fatty liver disease (NAFLD)

Nonalcoholic steatohepatitis (NASH)

Yo Jyo Hen Shi Ko (YHK)

Yo Jyo Hen Shi Ko - YHK

Mécanismes de l’inflammation hépatique liée à l’obésité / Mechanisms of hepatic inflammation linked to obesity

Boujedidi, Hédia

09 December 2011

Les lésions hépatiques observées au cours de l'obésité (NAFLD, stéatopathie non alcoolique) s'étendent de la stéatose isolée à la stéatohépatite (NASH, stéatohépatitie non alcoolique), la fibrose, la cirrhose et au carcinome hépatocellulaire. L'identification des mécanismes de recrutement des cellules immunitaires par le foie stéatosique est une étape clé dans la compréhension du déclenchement de l'inflammation hépatique et la recherche de nouvelles cibles thérapeutiques. Au cours de l’obésité, la stéatose sensibilise le foie au lipopolysaccharide (LPS), qui active la voie pro-inflammatoire NFκB. Nous avons récemment montré que: 1) la stéatose induisait une augmentation du recrutement lymphocytaire (TCD4+, TCD8+ et B) vers le foie mais également une augmentation de la réponse des lymphocytes TCD4+ à la chimiokine CXCL12 (SDF-1α), dont le récepteur est CXCR4 ; 2) GILZ (Glucocorticoid-Induced Leucine Zipper), une protéine induite par les glucocorticoïdes (GCs), inhibait la voie NFkB et jouait un rôle clé dans l’inflammation hépatique au cours de la consommation excessive d’alcool.Le but de ce travail était d’étudier les mécanismes de l’inflammation hépatique liée à l’obésité. Au cours de mon travail, nous avons montré que le chimiotactisme des lymphocytes TCD4+ à la chimiokine CXCL12 était augmenté non seulement chez les souris obèses mais également chez des patients ayant une NASH. L’augmentation de l’effet chimiotactique de CXCL12 était due à une augmentation de l’affinité de CXCL12 à son récepteur CXCR4. La migration anormale des lymphocytes T CD4+ vers le foie stéatosique était réversible pharmacologiquement en inhibant la liaison de CXCL12 à CXCR4 par AMD3100 (antagoniste deCXCR4). Le déficit d’expression et l’altération de l’induction du facteur anti-inflammatoire GILZ dans les cellules des Kupffer des souris obèses étaient responsables de la sensibilisation de ces cellules au LPS. Cette altération était liée à la diminution de l’expression du récepteur aux glucocorticoïdes (GR) dans les cellules de Kupffer des souris obèses. La surexpression de GILZ dans l’obésité en utilisant des souris trangéniques restaurait la tolérance hépatique au LPS. Ces anomalies des lymphocytes TCD4+ et de l’expression de GILZ dans les cellules de Kupffer participent au déclenchement d’une inflammation hépatique sur un foie stéatosique et pourraient représenter de nouvelles cibles thérapeutiques / Non alcoholic fatty liver disease (NAFLD) includes a spectrum ranging from simple steatosis to nonalcoholic steatohepatitis (NASH), fibrosis, cirrhosis, and hepatocellular carcinoma. The identification of the mechanisms involved in the recruitment of immunity cells by the fatty liver is a key in the comprehension of the onset of liver and the finding of new therapeutic targets. In obesity, steatosis sensitizes the liver to the lipopolysaccharide (LPS) from the gastrointestinal tract and the NFkB pro-inflammatory pathway is activated. We recently showed that: 1) the steatosis led to an increase recruitment of lymphocytes (TCD4+, TCD8+ and B) by the liver but also an hyperresponsive of CD4+T cells to CXCL12 (SDF-1"), the ligand of CXCR4; 2) GILZ(Glucocorticoid-Induced Leucine Zipper), a protein induced by glucocorticoids (GCs), inhibits the nuclear factor kB pathway and plays a key role in alcoholic hepatitis.This aim of my work was to study the mechanisms involved in obesity-related liver inflammation.I demonstrated that the chemotaxis of CD4+T cells to CXCL12 was increased not only in obese mice but also in patients with NASH. This increased chemotactisme of CXCL12 was due to an increase of the affinity ofCXCL12 to its receptor. The abnormal migration of CD4+T lymphocytes to the fatty liver was reversible by pharmacologically inhibiting the binding of CXCL12 to CXCR4 using AMD3100.The decreased expression and the impairment of the induction of the anti-inflammatory factor GILZ in Kupffer cells from obese mice was responsible for a sensitization of these cells to LPS. This impairment was due to a decrease of the glucocorticoid receptor (GR) expression in Kupffer cells from obese mice. The overexpression of GILZ level in obese transgenic mice restored the liver tolerance to LPS. These abnormalities of CD4+T lymphocytes and the GILZ expression in Kupffer cells contribute to the onset of liver inflammation in obesity and may represent new therapeutic targets.

Stéatohépatite non alcoolique (NASH)

GC

GR

CXCR4

CXCL12

Nonalcoholic steatohepatitis (NASH)

Obesity

Hepatic inflammation

Kupffer cells

LPS

GC

GR

CD4+T lymphocytes,

CXCR4

CXCL12

Cost-effectiveness of NASH screening

Zhang, Eric W.

09 1900

No description available.

Stéatohépatite non-alcoolique (NASH)

Coût-utilité

Dépistage

Coût-efficacité

élastographie

Nonalcoholic fatty liver disease (NAFLD)

Nonalcoholic steatohepatitis (NASH)

Cost-utility

Elastography

Screening

Cost-effectiveness

Efeito do Yo Jyo Hen Shi Ko (YHK) no metabolismo lipídico na esteatohepatite experimental / Evaluation of Yo Jyo Hen Shi Ko (YHK) in hepatic lipid metabolism in experimental steatohepatitis

Isabel Veloso Alves Pereira

19 May 2010

A Doença Hepática Gordurosa Não Alcoólica (DHGNA) é atualmente uma das formas mais comuns de doença hepática, e está diretamente relacionada com a obesidade. Estudos indicam uma prevalência por volta de 30% na população ocidental e 11% na população oriental. A DGHNA possui um largo espectro abrangendo desde casos de esteatose simples sem inflamação, até casos com esteatohepatite e fibrose, podendo evoluir para cirrose e carcinoma hepatocelular. A fisiopatogênese da DHGNA é baseada em múltiplos eventos: resistência insulínica, aumento da lipólise periférica, aumento da síntese de novo de lipídeos, estresse oxidativo, endotoxemia crônica no desencadeamento da inflamação e fibrose entre outros. A etapa inicial caracteriza-se pelo acúmulo de ácidos graxos no hepatócito, suplantando sua capacidade de metabolização e exportação conseqüente à ação lipogênica da insulina, desta forma o metabolismo de ácidos graxos está intimamente ligado ao desenvolvimento da DHGNA. O Yo Jyo Hen Shi Ko (YHK) é um composto natural usado na medicina japonesa para tratamento de doenças hepáticas e apresenta propriedades antioxidantes, antiinflamatórias e hipolipemiantes. O presente estudo teve como objetivo avaliar o efeito do YHK no metabolismo hepático de lipídeos. Para tanto, foram utilizados camundongos obesos (ob/ob) com esteatohepatite não alcoólica (ENA) induzida por dieta deficiente em colina e metionina (DCM) e foram analisados no tecido hepático, genes relacionados com a síntese de novo de lipídeos (SREBP1c, FASn), genes relacionados com a oxidação e exportação de lipídeos (CPT1a e SCD-1, MTP), assim como genes relacionados com o armazenamento de lipídeos (Perilipina e ADFP). O YHK apresentou um efeito citoprotetor hepático com melhora dos parâmetros histológicos neste modelo experimental de ENA. Associadamente, houve redução na expressão de genes relacionados à síntese de novo como SREBP e da FASn, quando se comparou o grupo tratado com DCM+YHK com o grupo não tratado DCM. Em contrapartida, houve aumento na expressão da MTP e da SCD-1 ocasionando uma maior exportação de triglicerídeos hepáticos nos animais que utilizaram o YHK. Ainda, o YHK modulou as proteínas Perilipina e ADFP. Por outro lado, não houve modificação na oxidação de lipídeos.. Conclui-se que o YHK pode ser uma droga promissora no tratamento da DHGNA, já que age modulando genes envolvidos na síntese e exportação de lipídeos hepáticos, reduzindo o acúmulo de gordura no hepatócito / Nonalcoholic fatty liver disease (NAFLD) is currently one of the most common forms of liver disease, related directly to the increase of obesity in the world. Previous studies indicate a prevalence of around 30% in the western population and 11% in the eastern. This disease covers cases from simple steatosis without inflammation to cases of steato hepatitis (NASH) and fibrosis and it may lead to liver cirrhosis and hepatocellular carcinoma. The pathophysiology of NAFLD is based on multiple events: insulin resistance, increased peripheral lipolysis, increased de novo lipogenesis, oxidative stress, endotoxemia in triggering chronic inflammation and fibrosis and others. The initial stage of the disease is characterized by the accumulation of fatty acids in hepatocytes caused by the lipogenic action of insulin. This condition results in the surpassing of the cells ability to metabolize and export. This way, the metabolism of fatty acids is closely linked to the development of NAFLD. The Yo Jyo Hen Shi Ko (YHK) is a natural compound used in Japanese medicine for the treatment of liver disease and it has antioxidant, anti-inflammatory and lipid lowering properties. This study aimed to evaluate the effect of YHK in the hepatic metabolism of lipids. An experimental model was designed using obese mice (ob/ob) affected by NASH induced by a deficient diet in choline and methionine (MCD). Then, genes from its hepatic tissue related to de novo lipogenesis (SREBP1c, FASN), to lipid oxidation and exportation (CPT1A and SCD-1, MTP) as well as genes related to lipid storage (Perilipin and ADFP) were analyzed. The YHK presented a cytoprotective effect, improving the hepatic histological parameters in this experimental model. Additionally, when comparing the group treated with MCD + YHK (diet + YHK) to the untreated MCD group (diet) there was a reduction in the expression of genes related to de novo synthesis like SREBP1c and FASn. However, an increased expression of MTP and SCD-1 were observed leading to a greater liver exportation of fatty acids in animals that were treated with YHK. Moreover, the YHK modulated the proteins Perilipin and ADFP. On the other hand, there was no changing in lipid oxidation. In summary, the YHK can be a promising drug for the treatment of NAFLD, as it acts by modulating genes involved in the synthesis and exportation of hepatic lipids, reducing the accumulation of fat in hepatocytes

Camundongos ob/ob

Esteatohepatite não alcoólica (ENA)

Yo Jyo Hen Shi Ko - YHK

Mice ob/ob

Nonalcoholic fatty liver disease (NAFLD)

Nonalcoholic steatohepatitis (NASH)

Yo Jyo Hen Shi Ko (YHK)