UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bile acids are mainly recognized for their role in dietary lipid absorption and cholesterol homeostasis. However, recent progress in bile acid research suggests that bile acids are important signaling molecules that play a role in glucose homeostasis. Among the various supporting evidence, several reports have demonstrated an improvement of the glycemic index of type 2 diabetic patients treated with diverse bile acid binding resins. Herein, we review the diverse interactions of bile acids with various signaling/response pathways, including calcium mobilization and protein kinase activation, membrane receptor-mediated responses, and nuclear receptor responses. Some of the effects of the bile acids are direct through the activation of specific receptors, i.e., TGR5, CAR, VDR, and FXR, while others imply modulation of the hormonal, growth factor and/or neuromediator responses, i.e., glucagon, EGF, and acetylcholine. We also discuss recent evidence implicating the interaction of bile acids with glucose homeostasis mechanisms, with the integration of our understanding of how the signaling mechanisms modulated by bile acid could regulate glucose metabolism.
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PMID:Bile acids and signal transduction: role in glucose homeostasis. 1863 71

Maternal cholestasis causes oxidative damage to the placental-fetal unit that may challenge the outcome of pregnancy. This has been associated with the accumulation of biliary compounds able to induce oxidative stress. However, other cholephilic compounds such as ursodeoxycholic acid (UDCA) and bilirubin have direct anti-oxidant properties. In the present study we investigated whether these compounds exert a protective effect on cholestasis-induced oxidative stress in placenta as compared to maternal and fetal livers, and whether this is due in part to the activation of anti-oxidant mechanisms involving vitamin C uptake and biliverdin/bilirubin recycling. In human placenta (JAr) and liver (HepG2) cells, deoxycholic acid (DCA) similar rates of free radical generation. In JAr (not HepG2), the mitochondrial membrane potential and cell viability were impaired by low DCA concentrations; this was partly prevented by bilirubin and UDCA. In HepG2, taurocholic acid (TCA) and UDCA up-regulated biliverdin-IX alpha reductase (BVR alpha) and the vitamin C transporter SVCT2 (not SVCT1), whereas bilirubin up-regulated both SVCT1 and SVCT2. In JAr, TCA and UDCA up-regulated BVR alpha, SVCT1 and SVCT2, whereas bilirubin up-regulated only SVCT2. A differential response to these compounds of nuclear receptor expression (SXR, CAR, FXR and SHP) was found in both cell types. When cholestasis was induced in pregnant rats, BVR alpha, SVCT1 and SVCT2 expression in maternal and fetal livers was stimulated, and this was further enhanced by UDCA treatment. In placenta, only BVR alpha was up-regulated. In conclusion, bilirubin accumulation and UDCA administration may directly and indirectly protect the placental-fetal unit from maternal cholestasis-induced oxidative stress.
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PMID:Role of vitamin C transporters and biliverdin reductase in the dual pro-oxidant and anti-oxidant effect of biliary compounds on the placental-fetal unit in cholestasis during pregnancy. 1870 37

The influence of combinatorial chemistry and high-throughput screening (HTS) technologies in the pharmaceutical industry during the last 10 years has been enormous. However, the attrition rate of drugs in the clinic due to toxicity during this period still remained 40-50%. The need for reduced toxicity failure led to the development of early toxicity screening assays. This chapter describes the state of the art for assays in the area of genotoxicity, cytotoxicity, carcinogenicity, induction of specific enzymes from phase I and II metabolism, competition assays for enzymes of phase I and II metabolism, embryotoxicity as well as endocrine disruption and reprotoxicity. With respect to genotoxicity, the full Ames, Ames II, Vitotox, GreenScreen GC, RadarScreen, and non-genotoxic carcinogenicity assays are discussed. For cytotoxicity, cellular proliferation, calcein uptake, oxygen consumption, mitochondrial activity, radical formation, glutathione depletion as well as apoptosis are described. For high-content screening (HCS), the possibilities for analysis of cytotoxicity, micronuclei, centrosome formation and phospholipidosis are examined. For embryotoxicity, endocrine disruption and reprotoxicity alternative assays are reviewed for fast track analysis by means of nuclear receptors and membrane receptors. Moreover, solutions for analyzing enzyme induction by activation of nuclear receptors, like AhR, CAR, PXR, PPAR, FXR, LXR, TR and RAR are given.
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PMID:High-throughput screening for analysis of in vitro toxicity. 1915 69

Recent discoveries highlighted intriguing molecular pathways that regulate synthesis, uptake, metabolism and excretion of bile acids and xenobiotics. The knowledge of factors that control these homeostatic processes is of clinical relevance to better understand the drug-drug interacting scenario as well as to control cholesterol detoxification, cholestasis and other conditions. Here we present evidences for the existence of a gut-liver safety network whereby activation of the nuclear receptor FXR, PXR, CAR trio provides protection against accumulation of exogenous and metabolic noxae.
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PMID:Master regulation of bile acid and xenobiotic metabolism via the FXR, PXR and CAR trio. 1927 85

Nuclear factor kappa B (NF-kappaB) is an important transcription factor that regulates a wide spectrum of genes including cytochrome P450 (CYP), the most important family of drug metabolizing enzymes. Therefore, in this review, we addressed the potential role of NF-kappaB in CYP regulation. We proposed three mechanisms by which NF-kappaB can regulate CYP expression and activity. First, NF-kappaB can directly regulate the expression of CYP1A1, CYP2B1/2, CYP2C11, CYP2D5, CYP2E1, CYP3A7, and CYP27B1 through binding to the promoter region of these genes. Second, NF-kappaB indirectly regulates the transcription of CYP genes through mutual repression with some nuclear receptors that are involved in CYP regulation such as AhR, CAR, GR, PXR, RXR, PPAR, FXR, and LXR. Finally, NF-kappaB can regulate CYP activity at post-transcriptional level by inducing heme oxygenase or by affecting the CYP protein stability. In addition, increased inflammatory mediators, oxidative stress, and subsequent NF-kappaB activation have been demonstrated in many conditions such as inflammatory bowel diseases, rheumatoid arthritis, psychological stress, diabetes, aging, cancer, renal diseases, and congestive heart failure. Meanwhile, there is a significant alteration of CYP expression and activity in these diseases. Therefore, we propose that NF-kappaB could be one of the links between inflammation, oxidative stress, and CYP regulation in these diseases. In conclusion, NF-kappaB plays a crucial role in the regulation of CYP through several mechanisms and this role can explain the altered CYP regulation in many conditions.
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PMID:Role of NF-kappaB in the regulation of cytochrome P450 enzymes. 1927 51

Recent progresses in molecular pharmacology approaches have allowed the identification and characterization of a series of nuclear receptors (NR) which efficiently control the level UDP-glucuronosyltransferase (UGT) genes expression. These regulatory processes ensure optimized UGT expression in response to specific endogenous and/or exogenous stimuli. Interestingly, numerous endogenous activators of these NRs are conjugated by the UGT enzymes they regulate. In such a case, the NR-dependent regulation of UGT genes corresponds to a feedforward/feedback mechanism by which a bioactive molecule controls its own concentrations. In the present review, we will discuss i) how bilirubin reduces its circulating levels by activating AhR in the liver; ii) how bile acids modulate their hepatic glucuronidation via PXR- and FXR-dependent processes in enterohepatic tissues; and iii) how androgens inhibit their cellular metabolism in prostate cancer cells through an AR-dependent mechanism. Subsequently, with further discussion of the same examples (bilirubin and bile acids), we will illustrate how NR-dependent regulation of UGT enzymes may contribute to the beneficial effects of pharmacological activators of nuclear receptors, such as CAR and PPARa.
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PMID:Regulation of endobiotics glucuronidation by ligand-activated transcription factors: physiological function and therapeutic potential. 1983 28

Porcine constitutive androstane receptor (CAR; NR1I3) was cloned and compared for homology and activity with mouse and human CAR (mCAR, hCAR). Porcine CAR (pgCAR) was 86% and 75% homologous to hCAR at the nucleotide and protein levels. Five alternatively spliced variants of pgCAR were identified, each of which generated a truncated protein product. Real-time polymerase chain reaction (PCR) analyses showed that these variants were present in pig liver cDNA samples from 4.61% to 9.20% of total pgCAR. pgCAR and hCAR responded similarly to more ligands than did hCAR and mCAR. The known hCAR agonist (6-(4-chlorophenyl)imidazo[2,1-b][1,3]thiazole-5-carbaldehyde-O-(3,4-dichlorobenzyl)oxime (CITCO) activated pgCAR, while the murine agonist 1,4 bis[2-(3,5-dichloropyridyloxy)] benzene (TCPOBOP) had no effect. 5beta-dihydrotestosterone was identified as a novel inverse agonist of both pgCAR and hCAR. pgCAR splice variant 2 (SV2) had a dose-dependent dominant negative effect on the activity of wild-type pgCAR in dual luciferase assays. SV2 had no effect against pgPXR (pregnane X receptor) or pgFXR (farnesoid X receptor) activity when using PXR- or FXR-specific reporters.
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PMID:Characterization of the porcine constitutive androstane receptor (CAR) and its splice variants. 1992 82

Cytochrome P450 1a1 (Cyp1a1) is a phase I xenobiotic-metabolizing enzyme, the expression of which is mainly driven by the aryl hydrocarbon receptor (AhR). Cyp1a1 messenger (m)RNA is labile. Our study indicates that 1-nitropyrene (1-NP) highly induced Cyp1a1 protein expression, although its induction of AhR transactivation activity was negligible. The fact that the nuclear receptors, CAR, FXR LXR, or PXR, did not induce Cyp1a1 expression indicates that they do not mediate 1-NP's action. When the AhR transcript was degraded by small hairpin (sh)RNA-AhR, 1-NP-induced Cyp1a1 expression largely decreased. In addition, 1-NP did not induce Cyp1a1 in AhR pathway-deficient mutant cells, which indicates that the AhR is essential for 1-NP's action. When Cyp1a1's turnover was examined, 1-NP was able to stabilize the 1-NP- and benzo[a]pyrene (BaP)-induced Cyp1a1 mRNA, but not protein. 1-NP-induced Cyp1a1 mRNA stabilization was mediated by Akt, but not by p38 MAPK, MEK1/2, or JNK. Among aryl hydrocarbons with four annealed phenyl rings, including pyrene, 1-NP, fluoranthene, 3-nitrofluoranthene, chrysene, and 6-nitrochrysene, only 1-NP was able to stabilize Cyp1a1 mRNA. 1-NP's action was gene specific. In conclusion, stabilizing Cyp1a1 mRNA greatly contributed to 1-NP-induced Cyp1a1 expression, which provides new insight into gene regulation by the AhR ligand and mRNA stabilization.
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PMID:1-Nitropyrene stabilizes the mRNA of cytochrome P450 1a1, a carcinogen-metabolizing enzyme, via the Akt pathway. 1996 Nov 61

Elucidation of the mechanisms regulating UGT genes is of prime importance if the adverse effects of interactions between drugs primarily eliminated by glucuronidation are to be minimized, and if UGT expression is to be manipulated for therapeutic effect. The factors controlling UGT gene expression in the liver include the liver-enriched transcription factors, HNF-1alpha and HNF-4alpha, several members of the nuclear-receptor family (CAR, PXR, FXR, LXR, and PPAR), the arylhydrocarbon receptor, and transcription factors involved in stress responses (Nrf2, Maf). HNF-1alpha, in concert with the intestine-specific transcription factor, Cdx2, and Sp1 regulate UGT gene expression in the gastrointestinal tract, whereas the genes for the major androgen-glucuronidating enzymes, UGT2B15 and UGT2B17, are upregulated by estrogens in breast cell lines and downregulated by androgens in prostate-derived cells. Despite this knowledge, the complex interactions between these transcription factors and their coregulators has not been determined, and the mechanisms regulating UGT gene expression in organs and tissues, other than the liver, gastrointestinal tract, breast, and prostate, remain to be elucidated.
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PMID:The regulation of UDP-glucuronosyltransferase genes by tissue-specific and ligand-activated transcription factors. 2007 Feb 44

Steatosis is the first step in the development of non-alcoholic fatty liver disease (NAFLD). However, the mechanisms involved in its pathogenesis are not fully understood. Many nuclear receptors (NRs) involved in energy homeostasis and biotransformation constitute a network connecting fatty acids, cholesterol and xenobiotic metabolisms; therefore, multiple NRs and their ligands may play a prominent role in liver fat metabolism and accumulation. In this study we have attempted to gain insight into the relevance of the NR superfamily in NAFLD by investigating the steatogenic potential of 76 different NR ligands in fatty acid overloaded human hepatocytes and hepatoma cells. Moreover, we have determined the mRNA expression level of 24 NRs to correlate the steatogenic potential of the ligands with the expression of their associated NRs in the cultured cells. Our results demonstrate that 18% of the examined NR ligands enhanced lipid accumulation in human hepatocytes and/or hepatoma cells. Among them, ligands of PPARgamma (e.g., thiazolidinediones), LXR (paxilline and 24(S),25-epoxycholesterol), PXR (hyperforin), CAR (3alpha,5alpha-androstenol), ERalpha (tamoxifen), FXR (Z-guggulsterone), VDR (25-hydroxyvitamin D3) and particular retinoids and farnesoids showed a significant pro-steatotic effect. The mRNA level of most of the NRs examined was well preserved in human hepatocytes, but HepG2 showed a deranged profile, where many of the receptors had a marginal or negligible level of expression in comparison with the human liver. By comparing the steatogenic effect of NR ligands with the NR expression levels, we conclude that LXR, PXR, RAR and PPARgamma ligands likely induce fat accumulation by a NR-dependent mechanism. Indeed, over-expression of PXR in HepG2 cells enhanced the steatogenic effect of hyperforin and rifampicin. However, the accumulation of fat induced by other ligands did not correlate with the expression of their associated NR. Our results also suggest that human hepatocytes cultured with free fatty acids offer a highly valuable in vitro system to investigate the pathogenesis and therapeutics of the human fatty liver.
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PMID:Enhanced steatosis by nuclear receptor ligands: a study in cultured human hepatocytes and hepatoma cells with a characterized nuclear receptor expression profile. 2007 22

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