HGF/c-Met regulates p22phox subunit of the NADPH oxidase complex in primary mouse hepatocytes by transcriptional and post-translational mechanisms.

INTRODUCTION AND OBJECTIVES: It is well-known that signaling mediated by the hepatocyte growth factor (HGF) and its receptor c-Met in the liver is involved in the control of cellular redox status and oxidative stress, particularly through its ability to induce hepatoprotective gene expression by activating survival pathways in hepatocytes. It has been reported that HGF can regulate the expression of some members of the NADPH oxidase family in liver cells, particularly the catalytic subunits and p22phox. In the present work we were focused to characterize the mechanism of regulation of p22phox by HGF and its receptor c-Met in primary mouse hepatocytes as a key determinant for cellular redox regulation. MATERIALS AND METHODS: Primary mouse hepatocytes were treated with HGF (50 ng/mL) at different times. cyba expression (gene encoding p22phox) or protein content were addressed by real time RT-PCR, Western blot or immunofluorescence. Protein interactions were explored by immunoprecipitation and FRET analysis. RESULTS: Our results provided mechanistic information supporting the transcriptional repression of cyba induced by HGF in a mechanism dependent of NF-κB activity. We identified a post-translational regulation mechanism directed by p22phox degradation by proteasome 26S, and a second mechanism mediated by p22phox sequestration by c-Met in plasma membrane. CONCLUSION: Our data clearly show that HGF/c-Met exerts regulation of the NADPH oxidase by a wide-range of molecular mechanisms. NADPH oxidase-derived reactive oxygen species regulated by HGF/c-Met represents one of the main mechanisms of signal transduction elicited by this growth factor.

[Cholesterol overload in hepatocytes affects nicotinamide adenine dinucleotide phosphate oxidase (NADPH) activity abrogating hepatocyte growth factor (HGF) induced cellular protection]. / La acumulación de colesterol en hepatocitos sobreactiva el fosfato de dinucleótido de adenina y nicotinamida (NADPH) oxidasa pero abroga la respuesta de protección del factor de crecimiento de hepatocitos (HGF).

The increment in the prevalence of obesity incidence in Mexico is leading to the increase in many chronic maladies, including liver diseases. It is well known that lipid-induced liver sensitization is related to the kind of lipid rather than the amount of them in the organ. Cholesterol overload in the liver aggravates the toxic effects of canonical liver insults. However, the status on the repair and survival response elicited by nicotinamide adenine dinucleotide phosphate (NADPH) oxidase and the hepatocyte growth factor (HGF) is not completely understood. In the present, work we aimed to figure out the HGF/NADPH oxidase-induced cellular protection in the hepatocyte with a cholesterol overload. Our results show that a hypercholesterolemic diet induced liver damage and steatosis in mice. The hepatocytes isolated from these animals exhibited an increase in basal NADPH oxidase activity, although transcriptional levels of some of its components were decreased. No effect on the oxidase activity was observed in HGF treatments. The protective effect of HGF was abrogated as a result of cholesterol cellular overload, calculated by a survival assay. In conclusion, the cholesterol overload in hepatocytes impairs the HGF/NADPH oxidase-induced cellular protection.

Placental insufficiency decreases pancreatic vascularity and disrupts hepatocyte growth factor signaling in the pancreatic islet endothelial cell in fetal sheep.

Hepatocyte growth factor (HGF) and vascular endothelial growth factor A (VEGFA) are paracrine hormones that mediate communication between pancreatic islet endothelial cells (ECs) and ß-cells. Our objective was to determine the impact of intrauterine growth restriction (IUGR) on pancreatic vascularity and paracrine signaling between the EC and ß-cell. Vessel density was less in IUGR pancreata than in controls. HGF concentrations were also lower in islet EC-conditioned media (ECCM) from IUGR, and islets incubated with control islet ECCM responded by increasing insulin content, which was absent with IUGR ECCM. The effect of ECCM on islet insulin content was blocked with an inhibitory anti-HGF antibody. The HGF receptor was not different between control and IUGR islets, but VEGFA was lower and the high-affinity VEGF receptor was higher in IUGR islets and ECs, respectively. These findings show that paracrine actions from ECs increase islet insulin content, and in IUGR ECs, secretion of HGF was diminished. Given the potential feed-forward regulation of ß-cell VEGFA and islet EC HGF, these two growth factors are highly integrated in normal pancreatic islet development, and this regulation is decreased in IUGR fetuses, resulting in lower pancreatic islet insulin concentrations and insulin secretion.

[High cholesterol diet modifies the repairing effect of the hepatocyte growth factor]. / La dieta alta en colesterol altera el proceso reparador del factor de crecimiento de hepatocitos.

Currently, fatty liver represents a serious public health problem in the Western world. In our country, a large amount of food rich in cholesterol is consumed. Cholesterol is an important component in lipid rafts, where many receptors for growth factors are localized, so its functionality could be altered in the presence of high cholesterol concentration. Hepatocyte growth factor (HGF) and its receptor c-Met are known to promote repair after an injury. The aim in the present work was to study the effect of a high cholesterol diet in the molecular repair process mediated by HGF in hepatocytes and liver tissue. Data show a delay in the activation of the HGF-mediated signaling cascade which results in a deficient repair process, that in the case of a continuous aggression could favor the progression of liver damage.

[Isolation of fetal liver oval cells in physiologic conditions form their natural niche]. / Aislamiento de células ovales de hígado fetal en condiciones fisiológicas a partir de su nicho natural.

The liver is characterized by a remarkable ability to proliferate and self-renew. In the situation of mild or moderate liver damage, hepatocytes carry out regeneration. Nevertheless, when liver damage is far too much extensive and the number of residual mature hepatocytes is not enough to accomplish regeneration, or likewise when mature hepatocyte proliferation is inhibited, hepatic regeneration depends on the activation of liver stem cells that give rise to oval cells. The population of liver stem cells is scant in normal liver. It is considered that in fetal liver this population is just over 1% of the cells. For this reason, it is necessary to isolate and enrich them for their study. With this goal several models of hepatic damage that permit the isolation of oval cells af ter the induction of massive hepatic injure have been developed. Here we present a simple methodology that allows the isolation of oval cells from rat fetal liver without prior induction of liver damage. The use of oval cell 2 (OC2) and oval cell 3 (OC3) antigens as molecular markers allowed the highly precise characterization of this cell population. Furthermore, the in vitro culture in presence of HGF yielded a substantial enrichment of the oval cell population.

Attenuation of glycerol-induced acute kidney injury by previous partial hepatectomy: role of hepatocyte growth factor/c-met axis in tubular protection.

BACKGROUND/AIMS: Previous partial hepatectomy (HPTX) can attenuate glycerol-induced acute kidney injury (Gly-AKI). The aim of this study was to explore the pathophysiological mechanisms and the role of hepatocyte growth factor (HGF) in kidney protection. METHODS: Rats were subjected to HPTX 24 h before glycerol administration. Renal function, acute tubular necrosis, apoptosis, leukocyte infiltration, and the expression of HGF, c-met, monocyte chemoattractant protein-1, interleukin-1beta, and heme oxygenase-1 were evaluated 24 h after glycerol injection. The regenerative response was analyzed from 6 to 72 h after glycerol injection (BrdU incorporation). In a separate series of experiments, Gly-AKI+HPTX rats were treated with anti-HGF antibody. RESULTS: Gly-AKI+HPTX rats showed an increased expression of renal HGF and c-met as well as an improved creatinine clearance and reduced acute tubular necrosis and apoptosis, cytokine expression, and leukocyte infiltration. The regenerative response was less intense 24 and 72 h after glycerol administration in this group. The anti-HGF treatment disclosed an important role of HGF in the reduction of tubular injury, particularly apoptosis. Overexpression of heme oxygenase-1 was observed in Gly-AKI+HPTX rats, but was not associated with HPTX-induced renal protection. CONCLUSION: We conclude that Gly-AKI+HPTX rats have a reduced susceptibility to renal injury instead of an increased regenerative response and that endogenous HGF overexpression is responsible for suppression of tubular apoptosis.

[Hepatocyte growth factor (HGF) and its therapeutic applications]. / Factor de crecimiento de hepatocitos (HGF) y sus aplicaciones terapéuticas.

Hepatocyte growth factor (HGF) also known as "scatter factor" (SF), was identified for the first time as a potent mitogen of primary cultured hepatocytes; it has multiple biological responses in a variety of cells including mitogenic, motogenic, morphogenic and antiapoptotic activities. It is secreted as an inactive single chain protein and isproteolitically cleaved to form an active two chain HGF. The hepatocyte growth factor activator (HGFA) is the principal activator of HGF. HGF exerts its biological effects through transmembrane tyrosine kinase receptor (c-Met). HGF is a growth factor displaying a remarkable ability to promote tissue repair and organ regeneration after injury. Therefore attention should be set on the clinical potential of HGF as a treatment for various diseases.

Lower concentration of pulmonary hepatocyte growth factor is associated with more severe lung disease in preterm infants.

OBJECTIVES: Hepatocyte growth factor (HGF) participates in normal lung development and in regeneration after lung injury in animals. We studied the role of HGF during the perinatal period and in the development of bronchopulmonary dysplasia (BPD). STUDY DESIGN: HGF was measured in 172 tracheal aspirate fluid samples (TAF) from 17 preterm infants in whom BPD subsequently developed (gestational age, 27.2+/-1.7 weeks; body weight, 828+/-210 g) and from 15 who survived without BPD (gestational age, 26.8+/-1.9 weeks; body weight, 994+/-265 g) during the first 2 postnatal weeks. RESULTS: Infants with subsequent development of BPD had lower HGF in TAF (45+/-9 pg/mL per IgA-sc) than those surviving without BPD (102+/-32 pg/mL per IgA-sc; P=.028). Lower HGF in TAF were seen in infants with more severe acute respiratory distress as defined as requirement for surfactant therapy (50+/-14 vs 146+/-50 pg/mL per IgA-sc in infants requiring no surfactant; P=.0001), for higher number of surfactant doses (r=-0.16, P=.06), and for mechanical ventilation >1 week (167+/-51 vs 51+/-14 pg/mL per IgA-sc in infants intubated <1 week; P=.0012). CONCLUSIONS: These data show an association between lower HGF concentration in TAF and more severe lung disease in human preterm infants in the early neonatal period.

The role of growth factors on renal tubular cells submitted to hypoxia and deprived of glucose.

BACKGROUND: In acute renal failure (ARF) renal tubular cell death and detachment can be induced by necrotic and apoptotic mechanisms. Several studies have demonstrated some benefits of the use of growth factors in experimental models of ARF. METHODS: MDCK cells were cultured in a glucose-free medium for 24h and were submitted to hypoxia (PO2 around 35 mmHg) for additional 24 h. To evaluate the possible protective role of growth factors, EGF, IGF-I or HGF were added to the medium (20 ng mL). LDH release, viability (acridine orange and ethidium bromide dyes) and quantification of apoptotic cells (Hoechst 33342 dye fluorescence) were determined. RESULTS: In the injury group, an increase on LDH release (60% vs. 3%) and on number of apoptotic cells (22% vs. 0.2%) which was associated with a reduced cell viability (61% vs. 94%) when compared with controls. Only HGF, not EGF or IGF-I, was able to protect cells from injury. HGF caused a significant reduction on LDH release (30%) and on number of apoptotic cells (5%), with an increase on viability cellular (79%). CONCLUSIONS: HGF decreases cell death on MDCK cells after hypoxic-induced injury, probably acting in both necrotic and apoptotic mechanisms.

Fatores hepatotróficos e regeneraçäo hepática. Parte II: fatores de crescimento / Hepatotrophic factors and liver regeneration. Part II: growth factors

Várias substâncias identificáveis estäo implicadas no processo de crescimento hepático, entre elas os fatores de crescimento. A maioria deles possui diferentes açöes, estimulando a proliferaçäo de células, ou mesmo inibindo na dependência de suas concentraçöes. Dentre os fatores de crescimento, ou somatomedinas, com açäo sobre o fígado pode-se destacar: HGF; EGF; TGF-alpha; TGF b ; Interleucina 6; IGF; FGF; VEGF; KGF; HSS e ALR. A açäo conjunta dos hormônios HGF, TGF-alpha, IL-6, TNF-alpha, norepinefrina, EGF, permite que insulina, glucagon e o próprio EGF manifestem seus efeitos. O HGF tem papel vital, talvez o principal "gatilho" deste processo, gerando um sinal endócrino que ativa fortemente a mitogênese nos hepatócitos já "preparados" pelo EGF, IL-6, insulina, matriz remanescente e outros, levando à síntese de DNA. Admite-se que o EGF também participe dos eventos iniciais do processo logo após a hepatectomia e que FGF, VEGF e KGF também participem dos eventos ligados à recomposiçäo de outros tecidos.

Fatores hepatotróficos e regeneraçäo hepática. Parte I: o papel dos hormônios / Hepatotrophic factors and liver regeneration. Part I: the role of hormones

No complexo processo de proliferaçäo celular, os hormônios agem de diferentes maneiras ao atingirem seus receptores nos tecidos-alvo. Os principais fatores ligados ao crescimento hepático säo HGF, TGF-alpha, IL-6, TNF-alpha, norepinefrina, EGF e insulina. O GH estimula tanto o fígado a produzir fatores de crescimento, como a expressäo genética do HGF e a síntese de DNA. Hormônios tireoideanos aumentam a capacidade proliferativa dos hepatócitos. A insulina age sinergicamente com GH e glucagon. Näo tem potencial mitogênico primário mas intensifica o estímulo regenerativo iniciado pela epinefrina e norepinefrina. Esta amplifica os sinais mitogênicos do EGF e HGF, induz a secreçäo de EGF e antagoniza os efeitos inibitórios do TGF-beta 1. O glucagon isoladamente näo produz efeitos mas provavelmente participa na síntese de DNA e da resposta homeostásica pela qual a glicemia é mantida estável durante a regeneraçäo. Também há indícios de açäo hepatotrófica da gastrina.

[Physiologic and physiopathologic role of hepatocyte growth factor]. / Papel fisiológico y fisiopatológico del factor de crecimiento del hepatocito.

Hepatocyte growth factor (HGF), originally described as an hepatocyte specific mitogen, has been shown to be a potent stimulator of DNA synthesis in a wide variety of cell types. In addition to its mitogenic effect, HGF has the unique ability to transmit information that determines the spatial organization of epithelial cells in tissues as well as induce cell migration and invasion of extracellular matrix in a variety of epithelial cells. HGF is involved in physiological processes like embryogenesis and development, and also in pathophysiological process as regeneration and carcinogenesis. Although the role that HGF plays in liver cancer is not clear, the findings strongly suggest that it influences the malignant cells. The present paper shows a review on the advances in the knowledge of HGF in physiological processes and in those related to liver diseases.

Role of cytokines, prostaglandins and nitric oxide in hepatic regeneration

The liver is considered the center of the metabolism. Many of its functions are controlled by a network of mediators. Hepatic regeneration is a highly regulated event also by several substances. Herein is was reviewed the literature about the role of cytokines, prostaglandins and nitric oxide in this event. Prior, it was described the known activities of each substance in the body. Further, it was examined since the production until the action of each one in regenerating livers. We could conclude that some of these mediators present a well-defined action, while others are object of great controversy. Overall, the comprehension of the liver's regeneration is very important in concern to develop new kinds of treatment in hepatology.