1. Investigación

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Incluye cualquier documento producido por un miembro de la Fundación Universitaria San Pablo CEU fruto de su actividad investigadora: tesis doctorales, artículos, comunicaciones a congresos, capítulos, libros, etc.

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Now showing 1 - 10 of 12
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    UCH
    Liver steatosis and steatohepatitis alter bile acid receptors in brain and induce neuroinflammation a contribution of circulating bile acids and blood-brain barrier2022-11-17

    A tight relationship between gut-liver diseases and brain functions has recently emerged. Bile acid (BA) receptors, bacterial-derived molecules and the blood-brain barrier (BBB) play key roles in this association. This study was aimed to evaluate how non-alcoholic fatty liver disease (NAFLD) and non-alcoholic steatohepatitis (NASH) impact the BA receptors Farnesoid X receptor (FXR) and Takeda G-protein coupled receptor 5 (TGR5) expression in the brain and to correlate these effects with circulating BAs composition, BBB integrity and neuroinflammation. A mouse model of NAFLD was set up by a high-fat and sugar diet, and NASH was induced with the supplementation of dextran-sulfate-sodium (DSS) in drinking water. FXR, TGR5 and ionized calcium-binding adaptor molecule 1 (Iba-1) expression in the brain was detected by immunohistochemistry, while Zonula occludens (ZO)-1, Occludin and Plasmalemmal Vesicle Associated Protein-1 (PV-1) were analyzed by immunofluorescence. Biochemical analyses investigated serum BA composition, lipopolysaccharidebinding protein (LBP) and S100 protein (S100 ) levels. Results showed a down-regulation of FXR in NASH and an up-regulation of TGR5 and Iba-1 in the cortex and hippocampus in both treated groups as compared to the control group. The BA composition was altered in the serum of both treated groups, and LBP and S100 were significantly augmented in NASH. ZO-1 and Occludin were attenuated in the brain capillary endothelial cells of both treated groups versus the control group. We demonstrated that NAFLD and NASH provoke different grades of brain dysfunction, which are characterized by the altered expression of BA receptors, FXR and TGR5, and activation of microglia. These effects are somewhat promoted by a modification of circulating BAs composition and by an increase in LBP that concur to damage BBB, thus favoring neuroinflammation.

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    USP
    Pleiotrophin : a novel modulator of the metabolic activity of the liver.2022-03-31

    El envejecimiento y la gestación son dos situaciones fisiológicas que cursan con metainflamación y resistencia a la insulina. La pleiotrofina regula el recambio lipídico, la homeostasis energética, la sensibilidad a la insulina y la plasticidad del tejido adiposo. Nuestra hipótesis es que la pleiotrofina podría modular las adaptaciones metabólicas del hígado durante el último tercio de la gestación y durante el envejecimiento. Para corroborar nuestra hipótesis empleamos ratones hembra Knock out para pleiotrofina y sus respectivos controles (Wild type) a los 3, 6, 12 y 15 meses de edad (modelo de envejecimiento) o a los 18 días de gestación. La deleción de pleiotrofina se asocia a un menor peso corporal y del hígado, una menor acumulación de lípidos hepáticos e intolerancia a la glucosa. Asimismo, observamos un papel regulatorio de la pleiotrofina en la biogénesis y función mitocondriales en el hígado y un papel de la glicerol quinasa en la regulación de la homeostasis glucídica durante la gestación. La pleiotrofina es esencial en el mantenimiento de la metabolismo lipídico y glucídico hepático y la deleción de pleiotrofina evita la acumulación ectópica de grasa en el hígado y protege frente al desarrollo de esteatosis.

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    USP
    Maternal fructose intake increases liver H2S synthesis but exarcebates its fructose-induced decrease in female progeny.2020-08-10

    Scope : Fructose intake from added sugars correlates with the epidemic rise in metabolic syndrome and cardiovascular diseases. However, consumption of beverages containing fructose is allowed during gestation. Homocysteine (Hcy) is a well-known risk factor for cardiovascular diseases while hydrogen sulfide (H2S), a product of its metabolism, has been proved to exert opposite effects to Hcy. Methods and results : First, we investigated whether maternal fructose intake produces subsequent changes in Hcy metabolism and H2S synthesis of the progeny. Carbohydrates were supplied to pregnant rats in drinking water (10% wt/vol) throughout gestation. Adult female descendants from fructosefed, control or glucose-fed mothers were studied. Females from fructose-fed mothers had elevated homocysteinemia, hepatic H2S production, cystathionine -lyase (CSE) (the key enzyme in H2S synthesis) expression and plasma H2S, versus the other two groups. Second, we studied how adult female progeny from control (C/F), fructose- (F/F) and glucose-fed (G/F) mothers responded to liquid fructose and compared them to the control group (C/C). Interestingly, both hepatic CSE expression and H2S synthesis were diminished by fructose intake, this effect being more pronounced in F/F females. Conclusions : Maternal fructose intake produces a fetal programming that increases hepatic H2S production and, in contrast, exacerbates its fructose-induced drop in female progeny.

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    USP
    Effects of hypo- and hyper-thyroidism on in vivo lipogenesis in fed and fasted rats.1979-09-19T15:40:16Z

    1.8 or 25 µg of L-thyroxine/100 g body wt. were compared with intact controls (C). The appearance of radioacitvity in fatty acids 30 min after the i.p. injection•of (3-14C)pyruvate was reduced in adipose tissue and enhanced in liver of T+25, being no differences between the other groups and C. ( 14C)- Fatty acids are reduced with 3 h of fasting only in the adipose tissue of T+ 1.8 and C, while 24 h produces a reduction in liver in the T+ 1.8, T+25 and C, and in adipose tissue in the T+l.8 and C animals. The highest percentage of radioactivity was observed in the liver glyceride glycerol fraction, being greater in T+25 than in the other groups. Fasting produces an increment in the ( 14C)-glyceride glycerol fraction. being significant only in the hypothyroid animals in both liver and adipose tissue. The most sensitive parameter to fasting was the formation of ( 14C)-non-saponifiable lipid in both the C and T+ 1.8 animals, while it does not change in T+0 or T+0.I, but is enhanced within 24 h in the adipose tissue of T + 25. It is proposed that most of the observed changes are due to the other endocrine disfunction s which appear in hypo- and hyperthyroidism, as the in vivo results do not comply with in vitro effects of thyroxine on lipogenesis of others.

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    USP
    Capillary electrophoresis of glutathione to monitor oxidative stress and response to antioxidant treatments in an animal model.2005-09-19T15:40:05Z

    Glutathione plays a central role in metabolism and antioxidant defence. Several factors can influence the analytical efficiency and rapidity of the quantitative determination of glutathione. Procedures in sample pre-treatment have been compared in order to minimize analytical errors. Capillary electrophoresis has been chosen as a more adequate technique for obtaining a rapid and simple method for glutathione and glutathione disulfide determination in the blood and liver of the rat. The methods, once optimised, have been validated and applied for monitoring the oxidative stress in an animal model, such as the rat made diabetic by streptozotocin injection, when the animals are treated with antioxidants and compared with the corresponding controls.

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    USP
    Effect of streptozotocin on liver composition and blood glucose, ketone bodies and insulin in the fed and fast male rat.1974-09-19T15:40:00Z

    Three days after a single injection of streptozotocin rats showed hyperglycemia, hyperketonemia and hypoinsulinemia. Body and liver weights were reduced and the concentration of DNA-P, phospholipid-P, proteins and acetyl-CoA in the liver was augmented, while the concentration of glycogen and citric acid in these animals compared with the controls which did not receive the drug was decreased. After 48 h starvation, blood glucose remained higher in the streptozotocin-treated animals, while circulating ketones and insulin were not different from those in the controls. With the exception of body and liver weights, which were lower, and of liver DNA-P, which was higher than when fed, neither of the other parameters studied in the s:reptozotocin treated animals changed with fasting, while the response in the c0ntrols was normal; The incapacity of increasing the postprandial insulin secretion in these animals may contribute to the metabolic alterations found in the fed state.

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    USP
    Effect of a 24 h fast on the amino acid concentrations of rat blood, liver and striated muscle.1982-09-19T15:39:56Z

    A 24-h fast induced different patterns of change in the amino acid concentrations of liver, muscle, plasma and blood cells. Starvation produced generalized increases in blood amino acids despite decreases in plasma, thus increasing the blood cells amino acid pool. Muscle increased amino acid levels with fasting, while the changes were much more buffered in liver. The fraction of essential amino acids carried by the blood was considerably greater than that of muscle and liver. The size of muscle pool in the whole rat was much greater than that of liver and more than two orders of magnitude higher than that of the whole blood. Fasting-induced changes agree with the known transport of amino acids from muscle and other peripheral tissues towards the liver and other splanchnic organs.

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    USP
    Differential metabolic response to 48 h food deprivation at different times of pregnancy in the rat.2001-09-19T15:39:45Z

    Since during pregnancy the mother switches from an anabolic to a catabolic condition, the present study was addressed to determine the effect of 48 h food deprivation on days 7, 14 and 20 of pregnancy in the rat as compared to age matched virgin controls. Body weight, free of conceptus, decreased with food deprivation more in pregnant than in virgin rats, with fetal weight (day 20) also diminishing with maternal starvation. The decline of plasma glucose with food deprivation was greatest in 20 day pregnant rats. Insulin was highest in fed 14 day pregnant rats, and declined with food deprivation in all the groups, the effect being not significant in 7-day pregnant rats. Food deprivation increased plasma glycerol only in virgin and 20 day pregnant rats. Plasma NEFA and 3-hydroxybutyrate increased with food deprivation in all groups, the effect being highest in 20 day pregnant rats. Food deprivation decreased plasma triacylglycerols in 14 day pregnant rats but increased in 20 day pregnant rats. In 20-day fetuses, plasma levels of glucose, NEFA and triacylglycerols were lower than in their mothers when fed, and food deprivation caused a further decline in plasma glucose, whereas both NEFA and 3-hydroxybutyrate increased. Liver triacylglycerols concentration did not differ among the groups when fed, whereas food deprivation caused an increase in all pregnant rats and fetuses, the effect being highest in 20-day pregnant rats. Lipoprotein lipase (LPL) activity in adipose tissue was lower in 20 day pregnant rats than in any of the other groups when fed, and it decreased in all the groups with food deprivation, whereas in liver it was very low in all groups when fed and increased with food deprivation only in 20 day pregnant rats. A significant increase in liver LPL was found with food deprivation in 20 day fetuses, reaching higher values than their mothers. Thus, the response to food deprivation varies with the time of pregnancy, being lowest at mid pregnancy and greatest at late pregnancy, and although fetuses respond in the same direction as their mothers, they show a specific response in liver LPL activity

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    USP
    Effects of lipid-supplemented total parenteral nutrition on fatty liver disease in a premature neonatal piglet model.2008-09-19T15:39:30Z

    Background: Routine total parenteral nutrition (TPN) in neonatal care can result in hepatic dysfunction in 40–60% of patients, most commonly as fatty liver, but little work has been conducted on the underlying mechanisms causing hepatic dysfunction. Objective: To use a piglet model for the premature human neonate on TPN, supplemented with lipid emulsions, to investigate hepatic responses. Method: Piglets were delivered 2 days prematurely. Six control piglets were fed enterally (E), whilst twelve animals were maintained on TPN. TPN piglets received the standard TPN solution plus the lipid emulsion as either ClinOleic (C, n = 6) or Intralipid (I, n = 6). Hepatic lipid content and the fatty acid composition of liver triacylglyercol (TAG) as well as hepatic lipase (HL) activity were determined. Lipoprotein lipase (LPL) activity was measured in the liver, muscle and adipose tissue. The plasma concentrations of choline, bilirubin, TAG and non-esterified fatty acids (NEFA) were also measured. Results: Liver lipid was significantly increased in piglets on TPN and the tissue fatty acid profiles reflected the lipid emulsion. HL and LPL activities were reduced in liver but LPL increased in adipose tissue during TPN. Plasma concentrations of choline, bilirubin, TAG and NEFA were similar across the treatments. Conclusions: The results suggest fatty liver occurs in neonates receiving TPN and the source of the accumulated lipid appears to be the lipid emulsion used. The factors regulating lipase activity during TPN require further study. The piglet can be used as a model for neonatal TPN.