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1.
Int J Obes (Lond) ; 42(3): 572-579, 2018 03.
Article in English | MEDLINE | ID: mdl-28895586

ABSTRACT

BACKGROUND/OBJECTIVES: The aim of this study was to characterize the effects of Maresin 1 (MaR1) in obesity-related liver steatosis and the mechanisms involved. METHODS: MaR1 effects on fatty liver disease were tested in ob/ob (2-10 µg kg-1 i.p., 20 days) and in diet-induced obese (DIO) mice (2 µg kg-1, i.p., or 50 µg kg-1, oral gavage for 10 days), as well as in cultured hepatocytes. RESULTS: In ob/ob mice, MaR1 reduced liver triglycerides (TG) content, fatty acid synthase (FAS) and stearoyl-CoA desaturase-1 protein expression, while increased acetyl-CoA carboxylase (ACC) phosphorylation and LC3II protein expression, in parallel with a drop in p62 levels. Similar effects on hepatic TG, ACC phosphorylation, p62 and LC3II were observed in DIO mice after MaR1 i.p. injection. Interestingly, oral gavage of MaR1 also decreased serum transaminases, reduced liver weight and TG content. MaR1-treated mice exhibited reduced hepatic lipogenic enzymes content (FAS) or activation (by phosphorylation of ACC), accompanied by upregulation of carnitine palmitoyltransferase (Cpt1a), acyl-coenzyme A oxidase (Acox1) and autophagy-related proteins 5 and 7 (Atg5-7) gene expression, along with increased number of autophagic vacuoles and reduced p62 protein levels. MaR1 also induced AMP-activated protein kinase (AMPK) phosphorylation in DIO mice and in primary hepatocytes, and AMPK inhibition completely blocked MaR1 effects on Cpt1a, Acox1, Atg5 and Atg7 expression. CONCLUSIONS: MaR1 ameliorates liver steatosis by decreasing lipogenic enzymes, while inducing fatty acid oxidation genes and autophagy, which could be related to AMPK activation. Thus, MaR1 may be a new therapeutic candidate for reducing fatty liver in obesity.


Subject(s)
Docosahexaenoic Acids/pharmacology , Fatty Liver/metabolism , Liver , Obesity/metabolism , Animals , Body Weight/drug effects , Cells, Cultured , Diet, High-Fat , Hepatocytes/cytology , Hepatocytes/drug effects , Hepatocytes/metabolism , Lipid Metabolism/drug effects , Liver/drug effects , Liver/metabolism , Male , Mice , Mice, Inbred C57BL , Mice, Obese
2.
Gut ; 55(9): 1306-12, 2006 Sep.
Article in English | MEDLINE | ID: mdl-16434425

ABSTRACT

BACKGROUND AND AIMS: In liver cirrhosis, disruption of the intestinal barrier facilitates bacterial translocation and spontaneous bacterial peritonitis. Insulin-like growth factor I (IGF-I) is an anabolic hormone synthesised by hepatocytes that displays hepatoprotective activities and trophic effects on the intestine. The aim of this study was to investigate the effect of IGF-I on intestinal barrier function in cirrhotic rats. METHODS: In rats with carbon tetrachloride induced cirrhosis, we investigated the effect of IGF-I therapy on: (a) portal pressure; (b) intestinal histology and permeability to endotoxin and bacteria; (c) intestinal expression of cyclooxygenase 2 (COX-2) and tumour necrosis factor alpha (TNF-alpha), two factors that influence in a positive and negative manner, respectively, the integrity of the intestinal barrier; (d) intestinal permeability to 3H-mannitol in rats with bile duct ligation (BDL); and (e) transepithelial electrical resistance (TER) of polarised monolayers of rat small intestine epithelial cells. RESULTS: IGF-I therapy reduced liver collagen expression and portal pressure in cirrhotic rats, induced improvement in intestinal histology, and caused a reduction in bacterial translocation and endotoxaemia. These changes were associated with diminished TNF-alpha expression and elevated COX-2 levels in the intestine. IGF-I reduced intestinal permeability in BDL rats and enhanced barrier function of the monolayers of epithelial intestinal cells where lipopolysaccharide (LPS) caused a decrease in TER that was reversed by IGF-I. This effect of IGF-I was associated with upregulation of COX-2 in LPS treated enterocytes. CONCLUSIONS: IGF-I enhances intestinal barrier function and reduces endotoxaemia and bacterial translocation in cirrhotic rats. IGF-I therapy might be useful in the prevention of spontaneous bacterial peritonitis in liver cirrhosis.


Subject(s)
Insulin-Like Growth Factor I/therapeutic use , Intestinal Absorption/drug effects , Liver Cirrhosis, Experimental/drug therapy , Animals , Bacterial Translocation/drug effects , Carbon Tetrachloride , Cells, Cultured , Cyclooxygenase 2/metabolism , Electric Impedance , Endotoxins/blood , Enterocytes/enzymology , Ileum/pathology , Insulin-Like Growth Factor I/metabolism , Lipopolysaccharides/pharmacology , Liver Cirrhosis, Experimental/microbiology , Liver Cirrhosis, Experimental/pathology , Liver Cirrhosis, Experimental/physiopathology , Male , Permeability , Portal Pressure , Rats , Rats, Sprague-Dawley , Reverse Transcriptase Polymerase Chain Reaction/methods , Tumor Necrosis Factor-alpha/metabolism
3.
Gut ; 54(1): 134-41, 2005 Jan.
Article in English | MEDLINE | ID: mdl-15591519

ABSTRACT

BACKGROUND/AIM: Hepatic stellate cells (HSCs) express alpha-smooth muscle actin (alphaSMA) and acquire a profibrogenic phenotype upon activation by noxious stimuli. Insulin-like growth I (IGF-I) has been shown to stimulate HSCs proliferation in vitro, but it has been reported to reduce liver damage and fibrogenesis when given to cirrhotic rats. METHODS: The authors used transgenic mice (SMP8-IGF-I) expressing IGF-I under control of alphaSMA promoter to study the influence of IGF-I synthesised by activated HSCs on the recovery from liver injury. RESULTS: The transgene was expressed by HSCs from SMP8-IGF-I mice upon activation in culture and in the livers of these animals after CCl4 challenge. Twenty four hours after administration of CCl4 both transgenic and wild type mice showed similar extensive necrosis and increased levels of serum transaminases. However at 72 hours SMP8-IGF-I mice exhibited lower serum transaminases, reduced hepatic expression of alphaSMA, and improved liver morphology compared with wild type littermates. Remarkably, at this time all eight CCl4 treated wild type mice manifested histological signs of liver necrosis that was severe in six of them, while six out of eight transgenic animals had virtually no necrosis. In SMP8-IGF-I mice robust DNA synthesis occurred earlier than in wild type animals and this was associated with enhanced production of HGF and lower TGFbeta1 mRNA expression in the SMP8-IGF-I group. Moreover, Colalpha1(I) mRNA abundance at 72 hours was reduced in SMP8-IGF-I mice compared with wild type controls. CONCLUSIONS: Targeted overexpression of IGF-I by activated HSCs restricts their activation, attenuates fibrogenesis, and accelerates liver regeneration. These effects appear to be mediated in part by upregulation of HGF and downregulation of TGFbeta1. The data indicate that IGF-I can modulate the cytokine response to liver injury facilitating regeneration and reducing fibrosis.


Subject(s)
Adipocytes/metabolism , Insulin-Like Growth Factor I/physiology , Liver Cirrhosis, Experimental/physiopathology , Liver Regeneration , Actins , Animals , Carbon Tetrachloride , Cells, Cultured , Collagen/metabolism , Female , Fibronectins/metabolism , Insulin-Like Growth Factor I/genetics , Insulin-Like Growth Factor I/metabolism , Liver Cirrhosis, Experimental/metabolism , Liver Cirrhosis, Experimental/pathology , Mice , Mice, Transgenic , RNA, Messenger/genetics , Reverse Transcriptase Polymerase Chain Reaction/methods , Transforming Growth Factor beta/biosynthesis , Transforming Growth Factor beta/genetics , Transforming Growth Factor beta1
4.
Gut ; 50(5): 701-6, 2002 May.
Article in English | MEDLINE | ID: mdl-11950820

ABSTRACT

BACKGROUND AND AIMS: Both bile salts and glutathione participate in the generation of canalicular bile flow. In this work, we have investigated the effect of different bile salts on hepatic glutathione metabolism. METHODS: Using the isolated and perfused rat liver, we studied hepatic glutathione content, and metabolism and catabolism of this compound in livers perfused with taurocholate, ursodeoxycholate, or deoxycholate. RESULTS: We found that in livers perfused with ursodeoxycholate, levels of glutathione and the activity of methionine adenosyltransferase (an enzyme involved in glutathione biosynthesis) were significantly higher than in livers perfused with other bile salts. In ursodeoxycholate perfused livers, methionine adenosyltransferase showed a predominant tetrameric conformation which is the isoform with highest activity at physiological concentrations of substrate. In contrast, the dimeric form prevailed in livers perfused with taurocholate or deoxycholate. The hepatic activities of gamma-glutamylcysteine synthetase and gamma-glutamyltranspeptidase, enzymes involved, respectively, in biosynthetic and catabolic pathways of glutathione, were not modified by bile salts. CONCLUSIONS: Ursodeoxycholate specifically enhanced methionine adenosyltransferase activity and hepatic glutathione levels. As glutathione is a defensive substance against oxidative cell damage, our observations provide an additional explanation for the known hepatoprotective effects of ursodeoxycholate.


Subject(s)
Glutathione/metabolism , Liver/metabolism , Methionine Adenosyltransferase/drug effects , Ursodeoxycholic Acid/pharmacology , Animals , Bile/metabolism , Isoenzymes/metabolism , Male , Methionine Adenosyltransferase/metabolism , Organ Culture Techniques , Rats , Rats, Wistar
5.
Hepatology ; 26(2): 330-5, 1997 Aug.
Article in English | MEDLINE | ID: mdl-9252142

ABSTRACT

Cysteinyl-leukotrienes can cause cholestasis and liver damage when administered at nanomolar concentrations. Using the isolated and perfused rat liver we analyzed whether S-adenosyl-L-methionine (SAMe) may protect this organ against the noxious effects of leukotriene-D4 (LTD4). We observed that a 2 nmol bolus of this compound decreased bile flow (-12.6% +/- 1.6%, P < .02), and bile salt excretion (-23.5% +/- 2.2%, P < .02; both compared with baseline values), caused the release of glutamic-oxaloacetic transaminase (GOT) and lactic dehydrogenase (LDH) to the hepatic effluent, and increased significantly the perfusion pressure as compared with a control group not receiving LTD4 (6.0 +/- 1.1 vs. 0.2 +/- 0.02 mm hg, respectively; P < .001). The cholestatic effect of LTD4 was attenuated by infusion of SAMe which, at rates of 67 and 100 microg/min, totally prevented the decrease in bile salt excretion. Likewise, in SAMe infused livers, the release to the effluent of GOT and LDH was lower than in the group receiving LTD4 only, and was even lower than in the control group. We also found that the increase in perfusion pressure induced by LTD4 was prevented by SAMe in a dose-dependent manner. Of interest, SAMe increased the biliary excretion of the eicosanoid in a dose-related fashion. We conclude that SAMe reverts the cholestatic, cytotoxic, and hemodynamic effects of LTD4 on the liver, and that these protective effects might be partly because of a stimulation of the biliary excretion of the leukotriene.


Subject(s)
Cholestasis/prevention & control , Leukotriene D4/toxicity , Liver/drug effects , S-Adenosylmethionine/pharmacology , Animals , Bile/drug effects , Bile Acids and Salts/metabolism , Cholestasis/chemically induced , Dose-Response Relationship, Drug , Hemodynamics/drug effects , Leukotriene D4/metabolism , Liver/physiology , Male , Perfusion , Rats , Rats, Wistar
6.
Gastroenterology ; 108(6): 1793-801, 1995 Jun.
Article in English | MEDLINE | ID: mdl-7768385

ABSTRACT

BACKGROUND/AIMS: Cysteinyl-containing leukotrienes seem to exert a cholestatic effect. However, leukotriene inhibitors were found to reduce bile salt efflux in isolated rat hepatocytes, suggesting a role for leukotrienes in bile flow formation. METHODS: In the isolated rat liver, the effects of two different concentrations of leukotriene C4 on bile flow and bile salt excretion are analyzed, as well as the possible effect of taurocholate on the hepatic production of cysteinyl-containing leukotrienes. RESULTS: Leukotriene C4 (0.25 fmol) increased bile salt excretion (+22.2%; P < 0.05), whereas a much higher dose (0.25 x 10(6) fmol) showed the known cholestatic effect, reducing bile salt excretion (-25.9%; P < 0.01). These dose-dependent biphasic effects were specific because they could be prevented by the simultaneous administration of cysteinyl-containing leukotriene antagonists. On the other hand, taurocholate administration induced a dose-dependent increase in biliary excretion of cysteinyl-containing leukotrienes. Furthermore, taurocholate increased messenger RNA levels of 5-lipoxygenase, a key enzyme in leukotriene biosynthesis. Taurocholate increase of hepatocyte intracellular calcium was not significant, suggesting that taurocholate effects are not mediated by stimulation of calcium metabolism. CONCLUSIONS: These results constitute evidence for the existence of a positive feedback mechanism by which bile salts stimulate the synthesis of leukotrienes that, in turn, stimulate bile salt excretion.


Subject(s)
Cholagogues and Choleretics/pharmacology , Leukotriene C4/biosynthesis , Liver/drug effects , Taurocholic Acid/pharmacology , Animals , Arachidonate 5-Lipoxygenase/genetics , Base Sequence , Bile/drug effects , Calcium/metabolism , Chromones/pharmacology , Leukotriene C4/pharmacology , Liver/metabolism , Male , Molecular Sequence Data , Perfusion , Rats , Rats, Wistar
7.
J Hepatol ; 12(2): 170-5, 1991 Mar.
Article in English | MEDLINE | ID: mdl-2050996

ABSTRACT

The influence of prostaglandins on renal function changes induced by furosemide was analyzed in 21 non-azotemic cirrhotic patients with ascites. Patients were studied in two periods of 120 min immediately before and after furosemide infusion (20 mg, ev). Furosemide caused an increase in creatinine clearance in 15 patients (group A: 99 +/- 7 vs. 129 +/- 5 ml/min; mean +/- S.E.) and a reduction in the remaining six (group B: 102 +/- 13 vs. 71 +/- 9 ml/min). Parallel changes were observed in the urinary excretion of 6-Keto-prostaglandin-F1 alpha (metabolite of renal prostacyclin) which augmented after furosemide in 14 of the 15 patients from group A (478 +/- 107 vs. 1034 +/- 159 pg/min, p less than 0.001) and decreased in all patients from group B (1032 +/- 240 vs. 548 +/- 136 pg/min, p less than 0.05). In contrast, the urinary excretion of prostaglandin E2 was stimulated by furosemide in all patients (group A, 92 +/- 19 vs. 448 +/- 60 pg/min, p less than 0.001; and group B, 209 +/- 63 vs. 361 +/- 25 pg/min, p less than 0.05). In all of the patients furosemide-induced changes (post- minus pre-furosemide values) in creatinine clearance were closely correlated in a direct and linear fashion with those in 6-Keto-prostaglandin-F1 alpha (r = 0.74; p less than 0.001). These changes were associated with a higher furosemide-induced natriuresis in group A than in group B (641 +/- 68 vs. 302 +/- 46 mumol/min, p less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)


Subject(s)
Epoprostenol/physiology , Furosemide/therapeutic use , Kidney/physiopathology , Liver Cirrhosis/drug therapy , 6-Ketoprostaglandin F1 alpha/urine , Dinoprostone/urine , Female , Humans , Liver Cirrhosis/complications , Liver Cirrhosis/physiopathology , Male , Uremia/etiology
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