Karuna Sachdeva scite author profile

Human DEC (differentially expressed in chondrocytes), mouse STRA (stimulated with retinoic acid), and rat SHARP (split and hairy related protein) proteins constitute a new and structurally distinct class of the basic helix-loop-helix proteins. In each species, two members are identified with a sequence identity of >90% in the basic helix-loop-helix region and ϳ40% in the total proteins, respectively. Recently, we have reported that DEC1 is abundantly expressed in colon carcinomas but not in the adjacent normal tissues. The present study was undertaken to extend the expression study of DEC1 and to determine whether DEC1 and DEC2 had similar expression patterns among paired cancer-normal tissues from the colon, lung, and kidney. Without exceptions, DEC1 was markedly higher in the carcinomas, whereas the opposite was true with DEC2. In stable transfectants, tetracycline-induced expression of DEC1 caused proportional decreases in the expression of DEC2. Co-transfection with DEC1 repressed the activity of a DEC2 promoter reporter by as much as 90%. The repression was observed with wild type DEC1 but not its DNA binding-defective mutants. Studies with deletion and site-directed mutants located, in the proximal promoter, an E-box motif that supported the DEC1-mediated repression. Disruption of this E-box markedly abolished the ability of the reporter to respond to DEC1. Our findings assign for DEC1 the first target gene that is regulated through direct DNA binding. DEC/STRA/ SHARP proteins are highly identical in the DNA binding domain but much more diverse in other areas. DEC1-mediated repression on the expression of DEC2 provides an important mechanism that these transcription factors regulate the cellular function not only by modulating the expression of their target genes but also the expression of members within the same class.The basic helix-loop-helix (bHLH) 1 proteins are intimately associated with developmental events such as cell differentiation and lineage commitment (1-6). The HLH domain in the bHLH motif is responsible for dimerization, whereas the basic region mediates DNA binding (1). Based on sequence alignment and domain analysis, human DEC (differentially expressed in chondrocytes), mouse STRA (stimulated with retinoic acid), and rat SHARP (split and hairy related protein) constitute a new and structurally distinct class of bHLH proteins (7-10). These proteins are distantly related to Drosophila Hairy and E(spl) as well as the mammalian homologues (e.g. HES) with the highest sequence identity (ϳ40%) in the bHLH region (1,11,12). Like Hairy/E(spl)/Hes, DEC/STRA/SHARPs contain an orange domain and a proline residue in the DNA binding domain. However, the proline is located 2 residues more toward the NH 2 terminus (1, 8). Another major structural difference on the functional domains is that DEC/STRA/ SHARPs, unlike Hairy/E(Spl)/Hes proteins, lack the COOHterminal WRPW tetrapeptide motif (13). Through this sequence, Hairy/E(spl)/Hes recruit corepressor Groucho to the transcription regulatory complex (13)....

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The Pregnane X Receptor Binds to Response Elements in a Genomic Context-Dependent Manner, and PXR Activator Rifampicin Selectively Alters the Binding Among Target Genes

Song

Xie²,

Zhang³

et al. 2004

Drug Metab Dispos

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This article is available online at http://dmd.aspetjournals.org ABSTRACT:The pregnane X receptor (PXR) is a key regulator of genes encoding several major types of cytochrome P450 enzymes and transporters (e.g., multidrug resistance-1, MDR1); therefore, PXR contributes significantly to drug-drug interactions. PXR binds to response elements and confers transactivation. Several target genes such as CYP3A4 and 3A7 contain two PXR elements (distant and proximal) that are separated by more than 7000 nucleotides in the genome. Disruption of the distant element causes a 73% decrease of the reporter activity, whereas inactivation of the proximal element decreases by only 53%. This study was undertaken to test the hypothesis that PXR differentially binds to the elements with the distant enhancer being bound to a higher extent. To test this hypothesis, a stable transfected line (hPXR-HRE) was prepared to constitutively express human PXR and harbor a chromatinized CYP3A4-ER6 reporter. This line responded to rifampicin and dexamethasone similarly as hepatocytes based on the relative potency and activation kinetics. Contrary to the hypothesis, chromatin immunoprecipitation experiments showed that the genomic fragment harboring the proximal element was preferably precipitated over the fragment containing the distant element in the CYP3A4 gene, but the opposite was true with the CYP3A7 gene. In addition, the promoters from the MDR1 and CYP2B6 genes were abundantly present in the PXR immunocomplexes from the vehicle-treated cells. However, such abundant interactions were markedly diminished when cells were treated with PXR activator rifampicin. These findings suggest that PXR binding is dependent on the genomic context and PXR activators modulate such bindings.

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Lipopolysaccharide and Cecal Ligation/Puncture Differentially Affect the Subcellular Distribution of the Pregnane X Receptor but Consistently Cause Suppression of Its Target Genes CYP3A

Sachdeva

Yan

Chichester

2003

Shock

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The repressed expression of cytochrome P450 (CYP) enzymes in septic patients contributes significantly to therapeutic failures. Mice treated with sepsis-inducing agent lipopolysaccharide (LPS) sequentially express reduced mRNA levels of the pregnane X receptor (PXR) and its target genes Cyp3a(s), suggesting that reduction of Cyp expression is associated with the repression of PXR. The present study was undertaken to determine whether septic rats induced by LPS and cecal ligation/puncture (CLP) express reduced levels of rat PXR protein and whether the subcellular distribution of PXR is altered in septic conditions. Rats were treated with LPS (55 vs. 1 mg/kg) or underwent CLP, and the expression of CYP3A and PXR was determined. In LPS-treated rats, the expression of CYP3A enzymes was consistently decreased regardless of the doses used. In contrast, high dose and repeated low dose of LPS caused significant decreases on the nuclear PXR, whereas the opposite was true with the cytosolic PXR. When rats were administered with only a single low dose of LPS, both nuclear and cytosolic PXR levels were significantly increased. In the CLP model, rats undergoing CLP for 30 h expressed significantly lower levels of CYP3A but the PXR levels were not significantly altered. In addition, when rats were treated with dexamethasone, a significant induction of CYP3A was detected. However, such an induction was markedly antagonized by the treatment with LPS. The differential changes on the levels of the nuclear PXR and CYP3A between LPS and CLP models suggest that PXR plays negligible roles in the constitutive expression of CYP3A. The antagonism of LPS against dexamethasone-mediated CYP3A induction suggests that endotoxemia minimizes the inducibility of PXR target genes.

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Desmethoxyyangonin and Dihydromethysticin Are Two Major Pharmacological Kavalactones With Marked Activity on the Induction of Cyp3a23

Ma¹,

Sachdeva²,

Liu³

et al. 2004

Drug Metab Dispos

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ABSTRACT:Kava kava (Piper methysticum), an herbal remedy, is widely used for the treatment of mild to moderate cases of anxiety. The therapeutic activity is presumably achieved through multiple constituents called kavalactones. Recently, kava extracts were shown to induce CYP3A4 and activate human pregnane X receptor (PXR). This study was undertaken to test the ability of purified kavalactones to induce CYP3A23 and activate PXR. Rat hepatocytes were treated with desmethoxyyangonin, dihydrokawain, dihydromethysticin, kawain, methysticin, or yangonin, and the expression of CYP3A23 was monitored. Among the kavalactones, only desmethoxyyangonin and dihydromethysticin markedly induced the expression of CYP3A23 (ϳ7-fold). A similar magnitude of induction was detected with combined six kavalactones at a noninductive concentration when individually used. The induced expression, however, was markedly reduced or completely abolished if dihydromethysticin, desmethoxyyangonin, or both were excluded from the mixtures. Interestingly, regardless of whether dihydromethysticin or desmethoxyyangonin was used alone or together with other kavalactones, similar amounts of total kavalactones were needed to produce comparable induction, suggesting that the inductive activity of dihydromethysticin and desmethoxyyangonin is additively/synergistically enhanced by other kavalactones. In addition, treatment with dihydromethysticin, desmethoxyyangonin, or pregnenolone 16␣-carbonitrile (PCN) markedly increased the levels of CYP3A23 mRNA, and inhibition of mRNA synthesis abolished the induction. In contrast to PCN, dihydromethysticin and desmethoxyyangonin only slightly activated rat or human PXR. These findings suggest that the induction of CYP3A23 by dihydromethysticin and desmethoxyyangonin involves transcription activation, probably through a PXR-independent or PXR-involved indirect mechanism.

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Karuna Sachdeva

DEC1 Negatively Regulates the Expression of DEC2 through Binding to the E-box in the Proximal Promoter

The Pregnane X Receptor Binds to Response Elements in a Genomic Context-Dependent Manner, and PXR Activator Rifampicin Selectively Alters the Binding Among Target Genes

Lipopolysaccharide and Cecal Ligation/Puncture Differentially Affect the Subcellular Distribution of the Pregnane X Receptor but Consistently Cause Suppression of Its Target Genes CYP3A

Desmethoxyyangonin and Dihydromethysticin Are Two Major Pharmacological Kavalactones With Marked Activity on the Induction of Cyp3a23

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