The pituitary tumour-transforming gene 1/delta-like homologue 1 pathway plays a key role in liver fibrogenesis.

BACKGROUND AND AIMS: PTTG1 is almost undetectable in adult livers but is highly expressed in hepatocarcinoma. While little is known about its involvement in liver fibrosis, PTTG1 expression is associated with DLK1. We assessed the role of the PTTG1/DLK1 pathway in fibrosis progression and the potential therapeutic effect of PTTG1 silencing in fibrosis. METHODS: Pttg1 and Dlk1 were studied in liver and isolated cell populations of control and fibrotic rats and in human liver biopsies. The fibrotic molecular signature was analysed in Pttg1-/- and Pttg1+/+ fibrotic mice. Finally, Pttg1 silencing was evaluated in rats as a novel antifibrotic therapy. RESULTS: Pttg1 and Dlk1 mRNA selectively increased in fibrotic rats paralleling fibrosis progression. Serum DLK1 concentrations correlated with hepatic collagen content and systemic and portal haemodynamics. Human cirrhotic livers showed greater PTTG1 and DLK1 transcript abundance than non-cirrhotic, and reduced collagen was observed in Pttg1 Pttg1-/- mice. The liver fibrotic molecular signature revealed lower expression of genes related to extracellular matrix remodelling including Mmp8 and 9 and Timp4 and greater eotaxin and Mmp13 than fibrotic Pttg1+/+ mice. Finally, interfering Pttg1 resulted in reduced liver fibrotic area, lower α-Sma and decreased portal pressure than fibrotic animals. Furthermore, Pttg1 silencing decreased the transcription of Dlk1, collagens I and III, Pdgfrß, Tgfrß, Timp1, Timp2 and Mmp2. CONCLUSIONS: Pttg1/Dlk1 are selectively overexpressed in the cirrhotic liver and participate in ECM turnover regulation. Pttg1 disruption decreases Dlk1 transcription and attenuates collagen deposition. PTTG1/DLK1 signalling is a novel pathway for targeting the progression of liver fibrosis.

Vasopressin 1a receptor partial agonism increases sodium excretion and reduces portal hypertension and ascites in cirrhotic rats.

UNLABELLED: Patients and rats with cirrhosis and ascites have portal hypertension and circulatory dysfunction. Synthetic arginine vasopressin (AVP) receptor agonists able to induce systemic and mesenteric vasoconstriction have shown their usefulness in reducing portal pressure (PP) in this condition. We assessed the potential therapeutic value of a new V1 a -AVP receptor partial agonist with a preferential splanchnic vasoconstrictor effect (FE 204038) in rats with cirrhosis and ascites. The hemodynamic effects of cumulative intravenous doses of FE 204038, terlipressin, or vehicle were investigated. Mean arterial pressure and PP were continuously recorded and cardiac output and systemic vascular resistance (SVR) assessed at 30-minute intervals for 90 minutes. Urine volume, urine osmolality, and urinary excretion of sodium and creatinine were measured in basal conditions and following twice-daily subcutaneous doses of FE 204038 or vehicle. PP, mean arterial pressure, cardiac output, SVR, and ascites volume were also measured after 6 days. The expression of an array of vasoactive genes was assessed in the thoracic aorta and the mesenteric circulation of control rats and rats with cirrhosis and ascites. FE 204038 dose-dependently decreased PP, did not modify mean arterial pressure, and increased SVR. The effect of the V1a -AVP receptor partial agonist on PP was associated with an improvement in urine volume and urinary excretion of sodium during the first day of treatment. SVR was higher and cardiac output and ascites volume were lower in rats with cirrhosis and ascites treated with FE 204038. V1a -AVP receptor expression in rats with cirrhosis and ascites was markedly enhanced in the mesenteric circulation compared to the thoracic aorta. CONCLUSION: FE 204038 increases sodium excretion and reduces portal hypertension and ascites in experimental cirrhosis. V1a -AVP receptor partial agonism could be a useful pharmacological treatment in decompensated patients with cirrhosis.

Letter in reply: Prognostic prediction by liver tissue proteomic profiling in patients with colorectal liver metastases.

In response to: S Sabour. Prognostic prediction by liver tissue proteomic profiling in patients with colorectal liver metastases; rule of thumb.

Prognostic prediction by liver tissue proteomic profiling in patients with colorectal liver metastases.

AIM: To obtain proteomic profiles in patients with colorectal liver metastases (CRLM) and identify the relationship between profiles and the prognosis of CRLM patients. MATERIALS & METHODS: Prognosis prediction (favorable or unfavorable according to Fong's score) by a classification and regression tree algorithm of surface-enhanced laser desorption/ionization TOF-MS proteomic profiles from cryopreserved CRLM (patients) and normal liver tissue (controls). RESULTS: The protein peak 7371 m/z showed the clearest differences between CRLM and control groups (94.1% sensitivity, 100% specificity, p < 0.001). The algorithm that best differentiated favorable and unfavorable groups combined 2970 and 2871 m/z protein peaks (100% sensitivity, 90% specificity). CONCLUSION: Proteomic profiling in liver samples using classification and regression tree algorithms is a promising technique to differentiate healthy subjects from CRLM patients and to classify the severity of CRLM patients.

Cerium oxide nanoparticles reduce steatosis, portal hypertension and display anti-inflammatory properties in rats with liver fibrosis.

BACKGROUND & AIMS: Cerium oxide nanoparticles (CeO2NPs) have proven to behave as free radical scavengers and/or anti-inflammatory agents. The aim of the study was to determine whether CeO2NPs display hepatoprotective properties in experimental chronic liver disease. METHODS: Systemic and hepatic effects of nanoparticles were assessed in CCl4-treated rats receiving CeO2NPs or vehicle twice weekly for two weeks and CCl4 treatment was continued for 8 additional weeks. Thereafter, mean arterial pressure and portal pressure (PP) were assessed and serum samples obtained to measure standard hepatic and renal function tests. Organ and subcellular distribution of NPs were assessed using mass spectrometry (ICP-MS) and transmission electron microscopy. Liver samples were obtained to evaluate steatosis, α-SMA expression, macrophage infiltration, apoptosis and mRNA expression of oxidative stress, inflammatory or vasoactive related genes. RESULTS: Most CeO2NPs were located in the liver and it reduced hepatic steatosis, ameliorated systemic inflammatory biomarkers and improved PP without affecting mean arterial pressure. In addition, a marked reduction in mRNA expression of inflammatory cytokines (TNFα, IL1ß, COX-2, iNOS), ET-1 and messengers related to oxidative (Epx, Ncf1, Ncf2) or endoplasmic reticulum (Atf3, Hspa5) stress signaling pathways was observed in the liver of rats receiving CeO2NPs. This was associated with reduced macrophage infiltration and reduced abundance of caspase-3, α-SMA and inflammatory cytokines. CONCLUSIONS: CeO2NPs administration to CCl4-treated rats protects against chronic liver injury by reducing liver steatosis and portal hypertension and markedly attenuating the intensity of the inflammatory response, thereby suggesting that CeO2NPs may be of therapeutic value in chronic liver disease.

Overexpression of angiopoietin-2 in rats and patients with liver fibrosis. Therapeutic consequences of its inhibition.

BACKGROUND & AIMS: Studies in experimental models of cirrhosis showed that anti-angiogenic treatments may be effective for the treatment of liver fibrosis. In this context, angiopoietins are potential therapeutic targets as they are involved in the maintenance and stabilization of newly formed blood vessels. In addition, angiopoietin-2 is expressed in fibrotic livers and its inhibition in tumours results in vessel stability. Therefore, our study was aimed to assess the therapeutic utility of inhibiting angiopoietin-2. METHODS: Circulating levels of angiopoietin-1 and angiopoietin-2 were quantified by ELISA in CCl4 -treated rats and in patients with cirrhosis. In vivo blockade of angiopoietin-2 in rats with liver fibrosis was performed with a chemically programmed antibody, CVX-060. RESULTS: High levels of angiopoietin-2 were found in the systemic and suprahepatic circulation of cirrhotic patients and the ratio angiopoietin-1/angiopoietin-2 inversely correlated with prognostic models for alcoholic liver disease. Chronic treatment of CCl4 -treated rats with CVX-060 was associated with a significant decrease in inflammatory infiltrate, normalization of the hepatic microvasculature and reduction in VCAM-1 vascular expression. The anti-angiopoietin-2 treatment was also associated with less liver fibrosis and with lower levels of circulating transaminases. CVX-060 treatment was not associated with either vascular pruning in healthy tissue or compensatory overexpression of VEGF. CONCLUSIONS: Inhibition of angiopoietin-2 is an effective and safe treatment for liver fibrosis in CCl4 -treated rats, acting mainly through the induction of vessel normalization and the attenuation of hepatic inflammatory infiltrate. Therefore, inhibition of angiopoietin-2 offers a therapeutic alternative for liver fibrosis.

Factors involved in extracellular matrix turnover in human derived cardiomyocytes.

BACKGROUND: The molecular mechanisms by which myocardial ischemia translates into ventricular remodeling remain unclear. METHODS: We investigated whether hypoxia and proinflammatory cytokines are specific inducers of remodeling signals in an in vitro model of cultured adult human ventricular myocytes (AC16 cells). RESULTS: Hypoxia modified the ratio of matrix remodeling factors by increasing the aminoterminal propeptide of type III procollagen (PIIINP) and reducing tissue inhibitor of matrix metalloproteinase type 1 (TIMP-1) secretion in AC16 cells. These effects, however, were not associated with either modifications in expression of matrix metalloproteinase type 2, collagen-I or metalloproteinase activity. Hypoxia does, actually increase the production of the cardiac antifibrogenic growth factors, Apelin and VEGF, through an Hypoxia Inducible Factor type 1-dependent mechanism. Concerning proinflammatory signaling pathways, IL1ß emerged as a powerful inducer of matrix turnover, since it significantly enhanced PIIINP, TIMP-1 and hyaluronic acid production and increased metalloproteinase activity. In contrast, TNFα did not modify matrix turnover but markedly induced the production of Apelin and VEGF. CONCLUSION: Hypoxia and increased TNFα activity likely exert cardioprotective actions by activating the cardiac antifibrogenic factors Apelin and VEGF. In contrast, IL1ß is a strong promoter of interstitial collagen remodeling that may contribute to ventricular dilation and heart failure in the ischemic myocardium.

Prevention of fibrosis progression in CCl4-treated rats: role of the hepatic endocannabinoid and apelin systems.

Endocannabinoids behave as antifibrogenic agents by interacting with cannabinoid CB2 receptors, whereas the apelin (AP) system acts as a proangiogenic and profibrogenic mediator in the liver. This study assessed the effect of long-term stimulation of CB2 receptors or AP receptor (APJ) blockade on fibrosis progression in rats under a non-discontinued fibrosis induction program. The study was performed in control and CCl(4)-treated rats for 13 weeks. Fibrosis-induced rats received a CB2 receptor agonist (R,S)-3-(2-iodo-5-nitrobenzoyl)-1-(1-methyl-2-piperidinylmethyl)-1H-indole (AM1241) (1 mg/kg b.wt.), an APJ antagonist [Ala(13)]-apelin-13 sequence: Gln-Arg-Pro-Arg-Leu-Ser-His-Lys-Gly-Pro-Met-Pro-Ala (F13A) (75 µg/kg b.wt.), or vehicle daily during the last 5 weeks of the CCl(4) inhalation program. Mean arterial pressure (MAP), portal pressure (PP), hepatic collagen content, angiogenesis, cell infiltrate, and mRNA expression of a panel of fibrosis-related genes were measured in all animals. Fibrosis-induced rats showed increased hepatic collagen content, reduced MAP, portal hypertension, and increased expression of the assessed messengers in comparison with control rats. However, fibrotic rats treated with either AM1241 or F13A had reduced hepatic collagen content, improved MAP and PP, ameliorated cell viability, and reduced angiogenesis and cell infiltrate compared with untreated fibrotic rats. These results were associated with attenuated induction of platelet-derived growth factor receptor ß, α-smooth muscle actin, matrix metalloproteinases, and tissue inhibitors of matrix metalloproteinase. CB2 receptor stimulation or APJ blockade prevents fibrosis progression in CCl(4)-treated rats. The mechanisms underlying these phenomena are coincident despite the marked dissimilarities between the CB2 and APJ signaling pathways, thus opening new avenues for preventing fibrosis progression in liver diseases.

Hypoxia and proinflammatory factors upregulate apelin receptor expression in human stellate cells and hepatocytes.

BACKGROUND: The activation of the apelin receptor (APJ) plays a major role in both angiogenic and fibrogenic response to chronic liver injury. However, the mechanisms that govern the induction of APJ expression have not been clarified so far. METHODS: The regulation and the role of APJ in cultured human liver cells were investigated. Tissular expression of APJ and α-smooth muscle actin was analysed by immunocolocalisation in human cirrhotic liver and in control samples. mRNA and protein expression of APJ were analysed in two cell lines, LX-2 (as hepatic stellate cells, HSCs) and HepG2 (as hepatocytes), under hypoxic conditions or after exposure to proinflammatory or profibrogenic factors. Additionally, both hepatic cell lines were stimulated with apelin to assess cell survival and the expression of angiogenic factors. RESULTS: The APJ-positive signal was negligible in control livers. In contrast, APJ was highly expressed in HSCs and slightly expressed in hepatocytes of human cirrhotic liver. Sustained hypoxia and lipopolysaccharide stimulated the expression of APJ in LX-2 cells. Moreover, hypoxia, tumour necrosis factor α and angiotensin II induced the expression of APJ in HepG2 cells. Activation of APJ stimulated angiopoietin-1 expression and cell survival in LX-2 cells and, in turn, triggered the synthesis of vascular endothelial growth factor type A and platelet-derived growth factor-BB in HepG2 cells. CONCLUSIONS: These results suggest that hypoxia and inflammatory factors could play a major role in the activation of the hepatic apelin system leading to angiogenic and fibroproliferative response occurring in chronic liver disease.

[Endogenous cannabinoids in liver disease: Many darts for a single target]. / Cannabinoides endógenos en la enfermedad hepática: muchos dardos para una sola diana.

Endogenous cannabinoids are ubiquitous lipid-signaling molecules able to partially mimic the actions produced by Delta(9)-tetrahydrocannabinol, the compound responsible for most of the psychological effects of marijuana. Endocannabinoids are derived from arachidonic acid and are involved in many physiological effects. This family of substances includes anandamide (arachidonylethanolamide), 2-arachydonylglycerol, noladin ether and virodhamine. The interaction of these substances with CB1 and CB2 receptors results in most of their biological effects. The endocannabinoid system is involved in the pathogenesis of the cardiovascular dysfunction occurring in advanced liver disease and also plays a role in the pathogenesis of portal hypertension and liver fibrosis. Moreover, this system is also altered in other processes associated with hepatic dysfunction, including encephalopathy, obesity and steatosis. These findings indicate that the endocannabinoid system may open new avenues for the therapeutic regulation of fibrosis and portal hypertension in advanced liver disease.

Formation of Δ(1) and Δ(6) testosterone metabolites by human hepatocytes.

The existence of urinary testosterone (T) metabolites conjugated with cysteine has been recently reported. The formation of a ring double bond by a phase I metabolic transformation and the subsequent nucleophilic conjugation with glutathione was proposed as a putative metabolic pathway for the occurrence of these metabolites in urine. The main goal of the present study was to confirm the first step of the postulated pathway. For that purpose, human hepatocyte cells systems were incubated with a pure T standard. The cell culture supernatants were analyzed by liquid chromatography coupled to mass spectrometry using a selected reaction monitoring method. Major T metabolites such as androsterone and 4-androstene-3,17-dione, together with the recently reported Δ(1) and Δ(6) metabolites were simultaneously quantified. The formation of 1,4-androstadien-3,17-dione, 4,6-androstadien-3,17-dione, 17ß-hydroxy-4,6-androstadien-3-one and 17ß-hydroxy-1,4-androstadien-3-one (boldenone) after incubation of T in hepatocyte cell cultures was demonstrated by comparing the retention times and the ion ratios of the metabolites with those obtained by analysis of commercial standards. Thus, the formation of double bonds Δ(1) and Δ(6) by hepatic phase I metabolism of T was confirmed. Analogously to T, this pathway might also be present in other steroids, opening the possibility of targeting additional biomarkers.

Lack of a 5.9 kDa peptide C-terminal fragment of fibrinogen α chain precedes fibrosis progression in patients with liver disease.

Early detection of fibrosis progression is of major relevance for the diagnosis and management of patients with liver disease. This study was designed to find non-invasive biomarkers for fibrosis in a clinical context where this process occurs rapidly, HCV-positive patients who underwent liver transplantation (LT). We analyzed 93 LT patients with HCV recurrence, 41 non-LT patients with liver disease showing a fibrosis stage F≥1 and 9 patients without HCV recurrence who received antiviral treatment before LT, as control group. Blood obtained from 16 healthy subjects was also analyzed. Serum samples were fractionated by ion exchange chromatography and their proteomic profile was analyzed by SELDI-TOF-MS. Characterization of the peptide of interest was performed by ion chromatography and electrophoresis, followed by tandem mass spectrometry identification. Marked differences were observed between the serum proteome profile of LT patients with early fibrosis recurrence and non-recurrent LT patients. A robust peak intensity located at 5905 m/z was the distinguishing feature of non-recurrent LT patients. However, the same peak was barely detected in recurrent LT patients. Similar results were found when comparing samples of healthy subjects with those of non-LT fibrotic patients, indicating that our findings were not related to either LT or HCV infection. Using tandem mass-spectrometry, we identified the protein peak as a C-terminal fragment of the fibrinogen α chain. Cell culture experiments demonstrated that TGF-ß reduces α-fibrinogen mRNA expression and 5905 m/z peak intensity in HepG2 cells, suggesting that TGF-ß activity regulates the circulating levels of this protein fragment. In conclusion, we identified a 5.9 kDa C-terminal fragment of the fibrinogen α chain as an early serum biomarker of fibrogenic processes in patients with liver disease.

Circulating CO3-610, a degradation product of collagen III, closely reflects liver collagen and portal pressure in rats with fibrosis.

BACKGROUND: Hepatic fibrosis is characterized by intense tissue remodeling, mainly driven by matrix metalloproteinases. We previously identified CO3-610, a type III collagen neoepitope generated by matrix metalloproteinase (MMP)-9, and tested its performance as a fibrosis marker in rats with bile-duct ligation. In this study, we assessed whether CO3-610 could be used as a surrogate biomarker of liver fibrosis and portal hypertension in carbon tetrachloride-induced experimental fibrosis. RESULTS: For this study, 68 Wistar rats were used. Serum CO3-610 was measured by ELISA. Liver fibrosis was quantified by Sirius red staining. Serum hyaluronic acid (HA) was measured with a binding-protein assay. Gene expression of collagens I and III, Mmp2 and Mmp9, and tissue inhibitors of matrix metalloproteinase 1 (Timp1) and 2(Timp2) was quantified by PCR. Hemodynamic measurements were taken in a subgroup of animals. A close direct relationship was found between serum CO3-610 and hepatic collagen content (r = 0.78; P < 0.001), superior to that found for serum HA (r = 0.49; P < 0.05). CO3-610 levels in rats with severe fibrosis (43.5 ± 3.3 ng/mL, P < 0.001) and cirrhosis (60.6 ± 4.3 ng/mL, P < 0.001) were significantly higher than those in control animals (26.6 ± 1.3 ng/mL). Importantly, a highly significant relationship was found between serum CO3-610 and portal hypertension (r = 0.84; P < 0.001). Liver Mmp9 expression increased significantly in fibrotic animals but decreased to control levels in cirrhotic ones. CONCLUSIONS: Circulating CO3-610 behaves as a reliable indicator of hepatic remodeling and portal hypertension in experimental fibrosis. This peptide could ultimately be a useful marker for the management of liver disease in patients.

Apelin mediates the induction of profibrogenic genes in human hepatic stellate cells.

UNLABELLED: Apelin is a peptide with relevant functions in angiogenesis and inflammation. Recent studies have demonstrated that apelin is overexpressed in hepatic stellate cells (HSCs) of cirrhotic rats. Moreover, patients with cirrhosis show high circulating levels of this peptide. We evaluated the role of endogenous apelin system in fibrogenesis-related gene induction in human HSCs. Messenger expression and immunolocalization of apelin were analyzed in human cirrhotic liver and in control samples. Apelin expression was analyzed in a human HSC line (LX-2) under hypoxic conditions or in the presence of proinflammatory or profibrogenic stimuli. LX-2 cells were stimulated with apelin, and a selected profile of fibrogenesis-related genes was quantified. In vivo inactivation of apelin was analyzed in the liver of fibrotic rats after administrating specific blockers of the molecules triggering apelin induction. Apelin was overexpressed in HSCs from human cirrhotic liver. Neither hypoxia nor proinflammatory substances induced the expression of apelin in LX-2. By contrast, both profibrogenic molecules angiotensin II (AII) and endothelin-1 (ET-1) enhanced apelin expression in these cells. Apelin increased the synthesis of collagen-I and platelet-derived growth factor receptor ß (PDGFRß) in LX-2. AII and ET-1 stimulated collagen-I and PDGFRß expression, and this induction was drastically reduced when apelin receptor was blocked in these cells. In accordance, AII or ET-1 receptor antagonists reduced the hepatic synthesis of apelin, collagen-I, and PDGFRß in fibrotic rats. CONCLUSIONS: apelin mediates some of the fibrogenic effects triggered by AII and ET-1, thus suggesting that apelin could be an important mediator of fibrogenesis in human liver disease.

Cannabinoides endógenos en la enfermedad hepática: muchos dardos para una sola diana / Endogenous cannabinoids in liver disease: Many darts for a single target

Los cannabinoides (CB) endógenos son moléculas lipídicas capaces de mimetizar los efectos producidos por el Δ9-tetrahidrocannabinol, el compuesto causante de los efectos psicológicos de la marihuana. Los endocannabinoides son derivados del ácido araquidónico y participan en numerosos efectos fisiológicos. Esta familia de sustancias está formada por la anandamida (araquidoniletanolamida), el 2-araquidonilglicerol, el éter de noladina y la virodamina. La interacción de estas sustancias con los receptores de CB1 y de CB2 da lugar a la mayoría de sus efectos biológicos. El sistema endocannabinoide está implicado en la patogénesis de la disfunción vascular que se produce en la enfermedad hepática avanzada y desempeña un papel importante en la patogénesis de la hipertensión portal y de la fibrosis hepática. Además, este sistema también se encuentra alterado en otros procesos asociados a la disfunción hepática, como la encefalopatía, la obesidad y la esteatosis. Este sistema podría representar una nueva diana terapéutica para la fibrosis y la hipertensión portal (AU)

Endogenous cannabinoids are ubiquitous lipid-signaling molecules able to partially mimic the actions produced by Δ9-tetrahydrocannabinol, the compound responsible for most of the psychological effects of marijuana. Endocannabinoids are derived from arachidonic acid and are involved in many physiological effects. This family of substances includes anandamide (arachidonylethanolamide), 2-arachydonylglycerol, noladin ether and virodhamine. The interaction of these substances with CB1 and CB2 receptors results in most of their biological effects. The endocannabinoid system is involved in the pathogenesis of the cardiovascular dysfunction occurring in advanced liver disease and also plays a role in the pathogenesis of portal hypertension and liver fibrosis. Moreover, this system is also altered in other processes associated with hepatic dysfunction, including encephalopathy, obesity and steatosis. These findings indicate that the endocannabinoid system may open new avenues for the therapeutic regulation of fibrosis and portal hypertension in advanced liver disease (AU)