UMLS:C0406810 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

UDP-glucuronosyltransferase 1A1 (UGT1A1) plays an important physiological role by contributing to the metabolism of endogenous substances such as bilirubin in addition to xenobiotics and drugs. The UGT1A1 gene has been shown to be inducible by nuclear receptors steroid xenobiotic receptor (SXR) and the constitutive active receptor, CAR. In this report, we show that in human hepatoma HepG2 cells the UGT1A1 gene is also inducible with aryl hydrocarbon receptor (Ah receptor) ligands such as 2,3,7,8-tetrachlodibenzo-p-dioxin (TCDD), beta-naphthoflavone, and benzo[a]pyrene metabolites. Induction was monitored by increases in protein and catalytic activity as well as UGT1A1 mRNA. To examine the molecular interactions that control UGT1A1 expression, the gene was characterized and induction by Ah receptor ligands was regionalized to bases -3338 to -3287. Nucleotide sequence analysis of this UGT1A1 enhancer region revealed a xenobiotic response element (XRE) at -3381/-3299. The dependence of the XRE on UGT1A1-luciferase activity was demonstrated by a loss of Ah receptor ligand inducibility when the XRE core region (CACGCA) was deleted or mutated. Gel mobility shift analysis confirmed that TCDD induction of nuclear proteins specifically bound to the UGT1A1-XRE, and competition experiments with Ah receptor and Arnt antibodies demonstrated that the nuclear protein was the Ah receptor. These observations reveal that the Ah receptor is involved in human UGT1A1 induction.
...
PMID:Involvement of the xenobiotic response element (XRE) in Ah receptor-mediated induction of human UDP-glucuronosyltransferase 1A1. 1256 46

Regulation of the Phase I CYP enzymes and Phase II conjugating enzymes is implicated in both drug metabolism and drug-drug interactions. Moreover, the elimination of numerous xenobiotic and endobiotic toxic chemicals also requires a concerted function of Phase I and II enzymes, as well as the membrane spanning drug transporters. The genes that encode these enzymes and transporters are inducible by numerous xenobiotics, yet the inducibility shows clear species specificity. In the last 3-4 years, orphan nuclear receptors (NRs) such as PXR, CAR, and FXR have been established as species-specific xeno-sensors that regulate the expression of Phase I and II enzymes, as well as selected drug transporters. This transcriptional regulation is achieved by binding of these xenobiotic receptors to the NR response elements found within the promoter regions of target genes. The identification of NRs as xenosensors represents a major step forward in understanding the genetic mechanisms controlling the expression of drug metabolizing enzymes. The establishment of NR-mediated and mechanism-guided xenobiotic screening systems by using cultured cells or genetically engineered mouse models has not only advanced our understanding of the molecular complexity of this drug-induced xenobiotic response, but has also provided in vitro and in vivo platforms to facilitate the development of safer drugs.
...
PMID:A nuclear receptor-mediated xenobiotic response and its implication in drug metabolism and host protection. 1257 Jul 46

Two nuclear receptors of xenobiotic drugs, PXR and CAR, are central regulators of detoxification enzymes. New studies extend the role of these receptors to a natural detoxification process. They coordinate induction of proteins for storage, glucuronidation, and canalicular transport of bilirubin.
...
PMID:Nuclear receptors orchestrate detoxification pathways. 1264 4

The nuclear receptor CAR (NR1I3) regulates transcription of genes encoding xenobiotic- and steroid-metabolizing enzymes. Regulatory processes that are mediated by CAR are modulated by a structurally diverse array of chemicals including common pharmaceutical and environmental agents. Here we describe four in-frame splice variants of the human CAR receptor gene. The variant mRNA splice transcripts were expressed in all human livers evaluated. Molecular modeling of the splice variant proteins predicts that the structural effects are localized within the receptor's ligand-binding domain. Assays to assess function indicate that the variant proteins, when compared with the reference protein isoform, exhibit compromised activities with respect to DNA binding, transcriptional activation and coactivator recruitment.
...
PMID:Alternatively spliced isoforms of the human constitutive androstane receptor. 1279 47

BACKGROUND: CAR/RXR heterodimers bind a variety of hormone response elements and activate transcription in the absence of added ligands. This constitutive activity of murine CAR can be inhibited by the inverse agonist ligand androstanol or increased by the agonist TCPOBOP. RXR agonists activate some RXR heterodimer complexes, which are termed permissive, while other non-permissive complexes are not responsive to such ligands. RESULTS: Direct protein-protein interaction studies demonstrate that the RXR agonist 9-cis-RA increases interaction of CAR/RXR heterodimers with the coactivator SRC-3, but also inhibits the ability of TCPOBOP to increase and androstanol to decrease coactivator binding. CAR transactivation of a response element with a five nucleotide spacer (DR-5) is unaffected by 9-cis-RA or the synthetic RXR agonist LG1069. In agreement with the inhibitory effect observed in vitro, these rexinoids block both the TCPOBOP mediated transactivation of this element and the androstanol dependent inhibition. In contrast, CAR transactivation of other response elements is increased by rexinoids. Stable expression of CAR in a HepG2 derived cell line increases expression of the endogenous CAR target CYP2B6. This expression is further increased by TCPOBOP but decreased by either androstanol or LG1069, and LG1069 blocks the stimulatory effect of TCPOBOP but not the inhibitory effect of androstanol. CONCLUSION: We conclude that CAR/RXR heterodimers are neither strictly permissive nor non-permissive for RXR signaling. Instead, rexinoids have distinct effects in different contexts. These results expand the potential regulatory mechanisms of rexinoids and suggest that such compounds may have complex and variable effects on xenobiotic responses.
...
PMID:Complex effects of rexinoids on ligand dependent activation or inhibition of the xenobiotic receptor, CAR. 1290 57

The human constitutive androstane receptor (hCAR; NR1I3) is a member of the nuclear receptor superfamily. The activity of hCAR is regulated by a variety of xenobiotics including clotrimazole and acetaminophen metabolites. hCAR, in turn, regulates a number of genes responsible for xenobiotic metabolism and transport including several cytochrome P450s (CYP 2B5, 2C9, and 3A4) and the multidrug resistance-associated protein 2 (MRP2, ABCC2). Thus, hCAR is believed to be a mediator of drug-drug interactions. We identified two novel hCAR splice variants: hCAR2 encodes a receptor in which alternative splice acceptor sites are utilized resulting in a 4 amino acid insert between exons 6 and 7, and a 5 amino acid insert between 7 and 8, and hCAR3 encodes a receptor with exon 7 completely deleted resulting in a 39 amino acid deletion. Both hCAR2 and hCAR3 mRNAs are expressed in a pattern similar to the initially described MB67 (hCAR1) with some key distinctions. Although the levels of expression vary depending on the tissue examined, hCAR2 and hCAR3 contribute 6-8% of total hCAR mRNA in liver. Analysis of the activity of these variants indicates that both hCAR2 and hCAR3 lose the ability to heterodimerize with RXR and lack transactivation activity in cotransfection experiments where either full-length receptor or GAL4 DNA-binding domain/CAR ligand binding domain chimeras were utilized. Although the role of hCAR2 and hCAR3 is currently unclear, these additional splice variants may provide for increased diversity in terms of responsiveness to xenobiotics.
...
PMID:Alternative splicing within the ligand binding domain of the human constitutive androstane receptor. 1456 71

Nuclear hormone receptors are ligand-activated transcription factors that regulate gene expression and play a critical role in endocrine signaling. Orphan nuclear receptors belong to this gene super-family but their target genes and physiological function have not been completely elucidated. In recent years, the identification of natural ligands for these orphan receptors, their expression pattern in different tissues and studies with knock-out animals has delineated distinct regulatory functions for these proteins. The orphans belonging to the PPAR, LXR and FXR family function as lipid and bile-acid sensors while PXR and CAR function as xenobiotic sensors. This review will describe the discovery of natural and synthetic ligands for a number of these orphan receptors (excluding the PPARs) and the identification and characterization of novel signaling pathways and new hormone response systems linked to these targets. Small-molecule modulators of LXR and FXR control key genes involved in cholesterol and lipid metabolism. PXR is a highly promiscuous xenosensor that responds to xenobiotic ligands (antibiotics, statins, glucocorticoids) and induces the Cyp3A gene, thereby playing a role in hepatoprotection and bile acid metabolism. A related receptor from the gene subfamily, CAR, displays high ligand selectivity and modulation of its activity in humans may significantly alter metabolism of drugs and other xenobiotics. The role of the ER relatives, the ERRs will become more apparent as ligands are identified and linked to target genes and physiological function. These targets offer multiple opportunities for therapeutic intervention with small-molecule drugs, in diseases related to neuronal function, inflammation, lipid homeostasis, metabolic function and cancer.
...
PMID:Orphan nuclear receptor modulators. 1468 19

The nuclear orphan receptor CAR is active in the absence of ligand with the unique capability to be further regulated by activators. A number of these activators, including phenobarbital, do not directly bind to the receptor. Considered a xenobiotic sensing receptor, CAR transcriptionally modifies the expression of genes involved in the metabolism and elimination of xenobiotics and steroids in response to these compounds and other cellular metabolites. Its hepatic expression pattern endows the liver with the ability to protect against not only exogenous but also endogenous insults. The mechanism of CAR activation is complex, involving translocation from the cytoplasm to the nucleus in the presence of activators, followed by further activation steps in the nucleus. Although this mechanism remains under investigation, we have summarized here the cellular signaling pathways elucidated so far and speculate on the mechanism by which CAR activators regulate gene expression through this network.
...
PMID:CAR, driving into the future. 1498 30

The orphan nuclear receptor CAR (NR1I3) has been characterized as a central component in the coordinate response to xenobiotic and endobiotic stress. In this study, we demonstrate that CAR plays a pivotal function in energy homeostasis and establish an unanticipated metabolic role for this nuclear receptor. Wild-type mice treated with the synthetic CAR agonist 1,4-bis[2-(3,5-dichloropyridyloxy)]benzene (TCPOBOP) exhibited decreased serum concentration of the thyroid hormone (TH) thyroxine (T(4)). However, treatment of Car(-/-) mice with TCPOBOP failed to elicit these changes. To examine whether CAR played a role in the regulation of TH levels under physiological conditions, wild-type and Car(-/-) mice were fasted for 24 h, a process known to alter TH metabolism in mammals. As expected, the serum triiodothyronine and T(4) concentrations decreased in wild-type mice. However, triiodothyronine and T(4) levels in fasted Car(-/-) mice remained significantly higher than those in fasted wild-type animals. Concomitant with the changes in serum TH levels, both CAR agonist treatment and fasting induced the expression of CAR target genes (notably, Cyp2b10, Ugt1a1, Sultn, Sult1a1, and Sult2a1) in a receptor-dependent manner. Importantly, the Ugt1a1, Sultn, Sult1a1, and Sult2a1 genes encode enzymes that are capable of metabolizing TH. An attenuated reduction in TH levels during fasting, as observed in Car(-/-) mice, would be predicted to increase weight loss during caloric restriction. Indeed, when Car(-/-) animals were placed on a 40% caloric restriction diet for 12 weeks, Car(-/-) animals lost over twice as much weight as their wild-type littermates. Thus, CAR participates in the molecular mechanisms contributing to homeostatic resistance to weight loss. These data imply that CAR represents a novel therapeutic target to uncouple metabolic rate from food intake and has implications in obesity and its associated disorders.
...
PMID:The nuclear receptor CAR is a regulator of thyroid hormone metabolism during caloric restriction. 1500 31

Compared with its rodent orthologs, little is known about the chemical specificity of human constitutive androstane receptor (hCAR) and its regulation of hepatic enzyme expression. Phenytoin (PHY), a widely used antiepileptic drug, is a potent inducer of CYP2B6 in primary human hepatocytes, but does not activate human pregnane X receptor (PXR) significantly in cell-based transfection assays at the same concentrations associated with potent induction of CYP2B6. Based on this observation, we hypothesized that PHY may be a selective activator of hCAR. In primary human hepatocytes, expression of CYP2B6 reporter genes containing phenobarbital-responsive enhancer module (PBREM) or PBREM/xenobiotic-responsive enhancer module (XREM) response elements were activated up to 14- and 28-fold, respectively, by 50 microm PHY. By contrast, parallel experiments in HepG2 cell lines co-transfected with an hPXR expression vector did not show increased reporter activity. These results indicated that a PXR-independent pathway, which is retained in primary hepatocytes, is responsible for PHY induction of CYP2B6. Further experiments revealed that PHY effectively translocates hCAR from the cytoplasm into the nucleus in both primary human hepatocytes and CAR(-/-) mice. Compared with vehicle controls, PHY administration significantly increased CYP2B6 reporter gene expression, when this reporter construct was delivered together with hCAR expression vector into CAR(-/-) mice. However, PHY did not increase reporter gene expression in CAR(-/-) mice in the absence of hCAR vector, implying that CAR is essential for mediating PHY induction of CYP2B6 gene expression. Taken together, these observations demonstrate that, in contrast to most of the known CYP2B6 inducers, PHY is a selective activator of CAR in humans.
...
PMID:Human constitutive androstane receptor mediates induction of CYP2B6 gene expression by phenytoin. 1512 23

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>