E. De Fabiani

Age-related changes in bile acid synthesis and hepatic nuclear receptor expression.

Background  Recent data highlighted the role of nuclear receptors in the transcriptional regulation of the limiting enzyme of bile acid synthesis, cholesterol 7α‐hydroxylase, in cellular and animal models. This study was designed to analyze the effects of age on cholesterol 7α‐hydroxylase and related nuclear receptor expression in human livers.

Decreased hepatic expression of PPAR-gamma coactivator-1 in cholesterol cholelithiasis

Background  Cholesterol cholelithiasis (gallstone disease) is a common disease in the Western world. The aim of the present study was to analyze the hepatic expression of a number of nuclear receptors involved in bile acid metabolism in human cholesterol gallstone disease.

EXPRESSION OF STEROL 27-HYDROXYLASE IN GLIAL CELLS AND ITS REGULATION BY LIVER X RECEPTOR SIGNALING

Cholesterol is required in the brain for synaptogenesis and its turnover is critical for cerebral functions. Several proteins involved in cholesterol handling and metabolism are transcriptionally regulated by the nuclear liver X receptor (LXR) alpha and beta. Sterol 27-hydroxylase (CYP27) is a ubiquitously expressed enzyme involved in cholesterol metabolism. Notably, its deficiency causes a disease characterized by progressive neurologic impairment. With the final goal to understand the pathophysiological role of CYP27A1 in the CNS, we studied the expression pattern of Cyp27a1 and other related genes in primary cultures of rat glia and neurons. Secondly, given the pivotal role of LXR in the regulation of cholesterol homeostasis, we investigated the effects of its activation on the expression of Cyp27a1.We found that primary astrocytes express different sterol hydroxylases and are able to uptake exogenous 27-hydroxycholesterol. We found that both microglia and astrocytes express preferentially Lxrbeta. However, despite this similarity, we observed cell-specific responsiveness of known and novel (including Cyp27a1) target genes to LXR activation. The increase of mRNA and protein levels in treated astrocytes is paralleled by transactivation of the proximal Cyp27a1 promoter in transfected astrocytes. We suggest that the astrocyte-restricted up-regulation of Cyp27a1 may be ascribable to differential expression of transcriptional co-activators. Given the role of astrocytes in maintaining brain homeostasis, we hypothesize that impairment of CYP27 activity in these cells may alter critical features of the astrocytes, from the handling and delivery of cholesterol to neurons to the release of signaling molecules.

Identification and characterization of cis-acting elements conferring insulin responsiveness on hamster cholesterol 7alpha-hydroxylase gene promoter.

Bile acid biosynthesis occurs primarily through a pathway initiated by the 7alpha-hydroxylation of cholesterol, catalysed by cholesterol 7alpha-hydroxylase (encoded by CYP7A1). Insulin down-regulates CYP7A1 transcription. The aim of our study was to characterize the sequences of hamster CYP7A1 promoter, mediating the response to insulin. We therefore performed transient transfection assays with CYP7A1 promoter/luciferase chimaeras mutated at putative response elements and studied protein-DNA interactions by means of gel electrophoresis mobility-shift assay. Here we show that two sequences confer insulin responsiveness on hamster CYP7A1 promoter: a canonical insulin response sequence TGTTTTG overlapping a binding site for hepatocyte nuclear factor 3 (HNF-3) (at nt -235 to -224) and a binding site for HNF-4 at nt -203 to -191. In particular we show that the hamster CYP7A1 insulin response sequence is part of a complex unit involved in specific interactions with multiple transcription factors such as members of the HNF-3 family; this region does not bind very strongly to HNF-3 and as a consequence partly contributes to the transactivation of the gene. Another sequence located at nt -138 to -128 binds to HNF-3 and is involved in the tissue-specific regulation of hamster CYP7A1. The sequence at nt -203 to -191 is not only essential for insulin effect but also has a major role in the liver-specific expression of CYP7A1; it is the target of HNF-4. Therefore the binding sites for liver-enriched factors, present in the hamster CYP7A1 proximal promoter in close vicinity and conserved between species, constitute a regulatory unit important for basal hepatic expression and tissue restriction of the action of hormones such as insulin.

Plasma lipoproteins and cholesterol metabolism in Yoshida rats : an animal model of spontaneous hyperlipemia

The purpose of this study was to characterize the lipoprotein profile and cholesterol metabolism in Yoshida rats, a strain of inbred genetically hyperlipemic animals. For comparison, Brown Norway rats were used as control animals. Plasma cholesterol and triglycerides were higher in Yoshida as compared to Brown Norway, the elevation of cholesterol being due to a rise in HDL fraction. Triglyceride distribution among lipoproteins showed an increase in VLDL fraction. Hyperlipemia was not related to diabetes, hypothyroidism or nephropathy. Plasma triglycerides production was increased in Yoshida rats, while lipoprotein and hepatic lipases were similar in the two groups. Hypercholesterolemia was associated with a defect of lipoprotein receptor activity and with elevated HMG-CoA reductase and cholesterol 7 alpha - hydroxylase; conversely ACAT activity was lower in Yoshida as compared to Brown Norway rats. Sterol fecal excretion was comparable in the two groups and hypercholesterolemia in Yoshida rats was not associated to an increase of cholesterol saturation of the bile. We suggest that lipoprotein overproduction is the main cause for hyperlipidemia in this strain of rats.

Lipid sensing and lipid sensors

Abstract.The field of bile acids has witnessed an impulse in the last two decades. This has been the result of cloning the genes encoding enzymes of bile acid synthesis and their transporters. There is no doubt that the identification of Farnesoid X Receptor (FXR, NR1H4) as the bile acid receptor has contributed substantially to attract the interest of scientists in this area. When FXR was cloned by Forman et al. [1], farnesol metabolites were initially considered the physiological ligands. After identifying FXR and other nuclear receptors as bile acid sensors [2—4], it has become clear that bile acids are involved in the regulation of lipid and glucose metabolism and that these molecules are eclectic regulators of diverse cellular functions. In this review, we will summarize the current knowledge of the functions regulated by bile acids and how their physiological receptors mediate the signaling underlying numerous cellular responses.

Attenuation of diet-induced obesity and induction of white fat browning with a chemical inhibitor of histone deacetylases

Background/objectives:In the last decade, a strict link between epigenetics and metabolism has been demonstrated. Histone deacetylases (HDACs) have emerged as key epigenetic regulators involved in metabolic homeostasis in normal and pathologic conditions. Here we investigated the effect of the class I HDAC inhibitor MS-275 in a model of obesity induced by a high-fat diet (HFD).Methods:C57BL6/J male mice were fed HFD for 17 weeks and then randomized in two groups, treated intraperitoneally with vehicle dimethylsulfoxide (DMSO) or with the class I selective HDAC inhibitor MS-275 every other day for 22 days. Glucose tolerance test and measurement of body temperature during cold exposure were performed. Adipose tissues and liver were phenotypically characterized through histological analysis. Gene and protein expression analysis of brown and white adipose tissues (WATs) were performed.Results:MS-275 treated mice showed 10% reduction of body weight, lower adipocyte size and improved glucose tolerance. Inhibition of class I HDAC determined reduction of adipocyte size and of fat mass, paralleled by higher expression of adipose functionality markers and by increased rate of lipolysis and fatty acid β-oxidation. MS-275 also promoted thermogenic capacity, related to ‘browning’ of visceral and subcutaneous WAT, showing increased expression of uncoupling protein 1. In brown adipose tissue, we observed limited effects on gene expression and only reduction of brown adipocyte size.Conclusions:This study provides evidence that class I HDAC inhibition stimulated functionality and oxidative potential of adipose tissue, improving glucose tolerance and ameliorating the metabolic profile in diet-induced obese mice.

The effect of etofibrate on cholesterol and bile acid metabolism in the hamster

Hamsters were given etofibrate at a dose of 300 mg/kg body wt, by gavage for 5 days, while being fed a chow diet. After treatment, serum cholesterol levels were 27% lower compared to those of the control animals. A similar trend was observed for triglyceride levels. Hepatic lipid levels were unchanged by the treatment. HMG-CoA reductase and acylCoA cholesterol acyltransferase were decreased while cholesterol 7 alpha-hydroxylase was not significantly modified by etofibrate. A choleretic effect and an increase of cholesterol excretion into hepatic bile was observed in treated animals. Nevertheless, composition and cholesterol saturation index of gallbladder bile were similar in control and treated animals. With respect to controls, hepatic bile of treated hamsters contained a lesser amount of cholic and deoxycholic acid and a greater amount of ursodeoxycholic acid.

Effect of tauroursodeoxycholate feeding, with or without taurine supplementation on hepatic bile acids and cholesterol metabolism in the hamster

This study reports the effect of short-term tauroursodeoxycholic acid (TUDCA) and of TUDCA with addition of taurine on the lipid composition of gallbladder bile, on cholesterol and bile acid synthesis and intestinal excretion, in the female hamsters. After either one or two weeks, the percentage of ursodeoxycholic acid (UDCA) and chenodeoxycholic acid (CDCA) in bile of treated hamsters significantly increased. Both treatments (TUDCA alone or TUDCA + taurine) decreased the percentage of cholic acid without affecting 3-hydroxy-3-methylglutaryl CoA (HMG-CoA) reductase or cholesterol 7 alpha-hydroxylase activities. Sterol and bile acid content of the feces collected during the period of the study did not show any difference. Bile acid glycine to taurine conjugation ratio (G/T ratio) in TUDCA treated animals was significantly higher in respect to controls after only one week of treatment. On the contrary, bile acid G/T ratio significantly decreased in the group of animals supplemented with taurine, but only after two weeks of treatment.

Effect of natural and structurally modified bile acids on cholesterol metabolizing enzymes in rat liver microsomes. II.

The effect of ursodeoxycholic acid analogues bearing modifications at the side-chain moiety of the molecule was tested on cholesterol 7 alpha-hydroxylase and HMG-CoA reductase in rat liver microsomes. The compounds included 23 R,S mixture and the single isomers 23R and 23S of 23 methylursodeoxycholic acid (23-methyl UDCA), the isomeric mixture (cis + trans) of 3 alpha,7 beta-dihydroxy-20,22-methylen-5 beta-cholan-23-oic acid (norcypro-UDCA) and the corresponding single isomers. Each steroid was added to liver microsomes as the sodium salt, at concentrations ranging from 25 to 200 microM. Isomers 23R and 23S of 23-methyl-UDCA inhibited cholesterol 7 alpha-hydroxylase in a concentration-dependent manner. The inhibitory capacity was similar for the two isomers. The extent of inhibition of the analogues was greater than that of the parent compound UDCA. Shortening of the side-chain in norcypro-UDCA resulted in a partial loss of the inhibitory effect, as compared to cypro-UDCA (3 alpha,7 beta-dihydroxy-22,23-methylen-5 beta-cholan-24-oic acid). None of these bile acid derivatives affected the activity of the enzyme HMG-CoA reductase.