Chenchen Song scite author profile

Dehydroepiandrosterone sulfotransferase (SULT2A1) is a cytosolic enzyme that mediates sulfo-conjugation of endogenous hydroxysteroids (dehydroepiandrosterone, testosterone, bile acids), and diverse xenobiotic compounds. Upon sulfonation, SULT2A1 substrates become polar and water-soluble and thus suitable for rapid excretion. SULT2A1 is abundantly expressed in the liver and intestine. Recent evidence has shown that the ligand-activated vitamin D receptor (VDR) can transcriptionally induce the xenobiotic-metabolizing cytochrome P450 enzymes. Herein, we report that VDR also targets SULT2A1 for transcriptional activation. Vitamin D stimulated endogenous SULT2A1 expression and induced transfected human, mouse, and rat SULT2A1 promoters in liver and intestinal cells upon cotransfection with VDR. An inverted repeat DNA element (IR0), located within Ϫ191 to Ϫ168 positions of mouse and rat Sult2A1, mediates VDR induction of Sult2A1. DNase1 footprinting, competition EMSA, and antibody supershift assay showed that the IR0 is a binding site for the RXR-␣/VDR heterodimer. Point mutations within the IR0 prevented RXR/VDR binding and abolished VDR-mediated Sult2A1 induction. The IR0 element conferred VDR responsiveness on a thymidine kinase promoter. Thus, VDR-mediated nuclear signaling may be important in the phase II metabolism involving Sult2A1. The rodent Sult2A1 gene is also induced by the farnesoid X receptor (FXR) and pregnane X receptor (PXR) through the same IR0. In competition transfections, FXR or PXR inhibited VDR induction of the IR0. Competitive functional interactions among VDR, PXR, and FXR suggest that the intracellular hormonal and metabolic milieu may determine the extent to which a specific nuclear receptor pathway would influence steroid/xenobiotic metabolism using dehydroepiandrosterone sulfotransferase.

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Optical voltage imaging in neurons: moving from technology development to practical tool

Knöpfel

2019

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Nucleolin Targeting AS1411 Modified Protein Nanoparticle for Antitumor Drugs Delivery

et al. 2013

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Over recent years, cell surface nucleolin as an anticancer target has attracted many researchers' attentions. To improve the antitumor efficacy, we developed a nucleolin targeted protein nanoparticle (NTPN) delivery system in which human serum albumin (HSA) was used as drug carrier and a DNA aptamer named AS1411, which had high affinity to nucleolin, was used as a bullet. The HSA nanoparticles (NPs-PTX) were fabricated by a novel self-assembly method and then modified with AS1411 (Apt-NPs-PTX). The resulted Apt-NPs-PTX were spherical. Compared with NPs-PTX, the uptake of Apt-NPs-PTX displayed a significant increase in MCF-7 cells while there was a decrease in nontumor cell lines such as MCF-10A and 3T3 cells. In a cytotoxic study, Apt-NPs-PTX displayed an enhanced cytotoxicity in MCF-7 tumor cells while there was almost no cytotoxicity in MCF-10A cells. Endostatin, a nucleolin inhibitor, could significantly decrease the internalization of Apt-NPs-PTX, suggesting nucleolin mediates the transmembrane process of Apt-NPs-PTX. Therefore, the AS1411 modified NTPN delivery system might be a promising targeted drug delivery system.

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Tissue-specific and Androgen-repressible Regulation of the Rat Dehydroepiandrosterone Sulfotransferase Gene Promoter

Song¹,

Jung²,

Kim³

et al. 1998

Journal of Biological Chemistry

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Dehydroepiandrosterone sulfotransferase (Std) catalyzes sulfonation of androgenic steroids and certain aromatic procarcinogens. In rats, this enzyme is selectively expressed in the liver, and its expression is strongly repressed by androgens. DNase I footprinting and electrophoretic mobility shift analyses revealed two hepatocyte nuclear factor-1 (HNF1), three CCAAT/enhancer-binding protein (C/EBP), and one consensus palindromic thyroid hormone response elements within the first 215 base pairs (bp) of the promoter sequence of rat Std. This promoter is normally inactive in fibroblastderived NIH 3T3 cells. However, overexpression of HNF1 and C/EBP resulted in synergistic activation of the Std promoter in this cell type, indicating essential roles of these two trans-regulators in liver-selective expression of the rat Std gene. On the other hand, point mutations at any one of five cis elements proximal to the ؊215 bp region markedly reduced reporter gene expression, suggesting that all of these sites are important for overall promoter function. Androgenic repression of the Std gene in rat liver can be recapitulated in androgen receptor (AR)-negative HepG2 hepatoma cells after cotransfection with an AR expression plasmid. Functional assay of a nested set of 5-deleted promoters mapped the negative androgen response region between positions ؊235 and ؊310. Antibody supershift and oligonucleotide competition identified three OCT-1 and two C/EBP elements between bp ؊231 and ؊292. An additional OCT-1 site was found to overlap with a C/EBP element at the ؊262/؊252 position. Mutational inactivation of any one of five cis elements within the ؊231/؊292 region abolished negative androgen response. However, none of these cis elements showed DNase I protection by recombinant AR in footprinting assay, suggesting the absence of a direct AR-DNA interaction. Thus, these studies on rat Std promoter function indicate that (i) HNF1 and C/EBP are responsible for liver specificity of the rat Std gene; (ii) androgenic repression of the gene requires the presence of all of the OCT-1 and C/EBP elements between positions ؊231 and ؊292; and (iii) AR may exert its negative regulatory effect indirectly through transcriptional interference of OCT-1 and C/EBP rather than through a direct DNA-AR interaction.

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Cortical Entropy, Mutual Information and Scale-Free Dynamics in Waking Mice

et al. 2016

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Some neural circuits operate with simple dynamics characterized by one or a few well-defined spatiotemporal scales (e.g. central pattern generators). In contrast, cortical neuronal networks often exhibit richer activity patterns in which all spatiotemporal scales are represented. Such “scale-free” cortical dynamics manifest as cascades of activity with cascade sizes that are distributed according to a power-law. Theory and in vitro experiments suggest that information transmission among cortical circuits is optimized by scale-free dynamics. In vivo tests of this hypothesis have been limited by experimental techniques with insufficient spatial coverage and resolution, i.e., restricted access to a wide range of scales. We overcame these limitations by using genetically encoded voltage imaging to track neural activity in layer 2/3 pyramidal cells across the cortex in mice. As mice recovered from anesthesia, we observed three changes: (a) cortical information capacity increased, (b) information transmission among cortical regions increased and (c) neural activity became scale-free. Our results demonstrate that both information capacity and information transmission are maximized in the awake state in cortical regions with scale-free network dynamics.

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The Xenobiotic-Sensing Nuclear Receptors Pregnane X Receptor, Constitutive Androstane Receptor, and Orphan Nuclear Receptor Hepatocyte Nuclear Factor 4α in the Regulation of Human Steroid-/Bile Acid-Sulfotransferase

Echchgadda

Song

et al. 2007

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The nuclear receptors pregnane X receptor (PXR) and constitutive androstane receptor (CAR) are the primary transcription factors coordinating induced expression of the enzymes and proteins directing oxidative, conjugative, and transport phases of endobiotic and xenobiotic metabolism, whereas hepatocyte nuclear factor 4alpha (HNF4alpha), a regulator of hepatic lipid homeostasis, can modify the PXR/CAR response. Steroid- and bile acid-sulfotransferase (SULT2A1) promotes phase II metabolism through its sulfonating action on certain endobiotics, including steroids and bile acids, and on diverse xenobiotics, including therapeutic drugs. This study describes characterization of a PXR- and CAR-inducible composite element in the human SULT2A1 promoter and its synergistic interaction with HNF4alpha. Inverted and direct repeats of AG(G/T)TCA (IR2 and DR4), both binding to PXR and CAR, define the composite element. Differential recognition of the composite element by PXR and CAR is evident because single-site mutation at either IR2 or DR4 in the natural gene abolished the PXR response, whereas mutations at both repeats were necessary to abrogate completely the CAR response. The composite element conferred xenobiotic response to a heterologous promoter, and the cognate ligands induced PXR and CAR recruitment to the chromatin-associated response region. An HNF4alpha element adjacent to the -30 position enhanced basal promoter activity. Although functioning as a synergizer, the HNF4alpha element was not essential for the PXR/CAR response. An emerging role of SULT2A1 in lipid and caloric homeostasis suggests that illumination on the regulatory interactions driving human SULT2A1 expression may reveal new avenues to control certain metabolic disorders.

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Chenchen Song

Regulation of Androgen Action

Dehydroepiandrosterone Sulfotransferase Gene Induction by Bile Acid Activated Farnesoid X Receptor

Dehydroepiandrosterone Sulfotransferase Is a Target for Transcriptional Induction by the Vitamin D Receptor

Optical voltage imaging in neurons: moving from technology development to practical tool

Nucleolin Targeting AS1411 Modified Protein Nanoparticle for Antitumor Drugs Delivery

Tissue-specific and Androgen-repressible Regulation of the Rat Dehydroepiandrosterone Sulfotransferase Gene Promoter

Cortical Entropy, Mutual Information and Scale-Free Dynamics in Waking Mice

The Xenobiotic-Sensing Nuclear Receptors Pregnane X Receptor, Constitutive Androstane Receptor, and Orphan Nuclear Receptor Hepatocyte Nuclear Factor 4α in the Regulation of Human Steroid-/Bile Acid-Sulfotransferase

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