• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 27
  • 20
  • 8
  • 8
  • 3
  • 2
  • 2
  • 1
  • Tagged with
  • 85
  • 22
  • 19
  • 18
  • 15
  • 14
  • 14
  • 12
  • 12
  • 12
  • 10
  • 10
  • 10
  • 9
  • 8
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
81

Ligand selective regulation of cell growth by the Ah receptor through activation of TGFβ signaling / Ligand selective regulation of cell growth by the Ah receptor through activation of TGF-beta signaling

Koch, Daniel C. 28 March 2015 (has links)
The Aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor and member of the basic helix-loop-helix Per/ARNT/Sim (bHLH/PAS) family of chemosensors and developmental regulators. As a member of the PAS domain family of transcription factors responsive to exogenous signals, the AhR exerts influence on many processes relating to cellular fate. The activation of AhR is widely associated with toxic endpoints related to dioxin exposure. However, the AhR also activates endogenous gene programs related to development, cellular growth, and differentiation. The AhR is able to bind a variety of ligands, leading to a wide range of biological outcomes. Recent reports have shown that the AhR can mediate tumor suppressive effects. As a ligand-activated transcription factor, the AhR has the potential to actuate a variety of transcriptional programs that are dependent on the AhR ligand. Our central hypothesis is that AhR ligands can be identified that are capable of initiating tumor suppressive functions of the AhR. We utilized complementary cell-based and in silico virtual screening approaches to identify potential AhR ligands. We developed homology models of the AhR ligand-binding domain (LBD) for virtual ligand screening (VLS) of small molecule libraries. This led to the identification of new AhR ligands 5,7- dihydroxyflavanone!and 5-hydroxy-7-methoxyflavone. Additional small molecule libraries were screened in parallel that led to identification of flutamide as a putative AhR ligand. Flutamide is clinically approved for the treatment of prostate cancer due to its ability to antagonize androgen receptor mediated transcription. We investigated the biological effects of flutamide in AhR positive cancer cells that do not express the androgen receptor and found that flutamide inhibited the growth of HepG2 cells. Suppression of AhR expression reversed the anti-proliferative effects of flutamide. We tested 15 structural analogs of flutamide, including the flutamide metabolite 2-hydroxyflutamide for activation of AhR transcriptional activity. Flutamide is unique in its ability to activate the AhR, and suppresses hepatoma cell growth. These data suggests that flutamide-induced AhR transcriptional activity is required to initiate the tumor suppressive effects. We examined changes in cell cycle checkpoint proteins after flutamide treatment and discovered increased expression of cell cycle inhibitory proteins p27[superscript Kip1] and p15[superscript INK]. We also found that transforming Growth Factor β1 (TGFβ1), which regulates both p27[superscript Kip1] and p15[superscript INK], is upregulated by flutamide. We demonstrate that TGFβ1 is upregulated by flutamide in an AhR-dependent manner and is required for suppression of proliferation by flutamide. We identify specific and unique transcriptional signatures of the AhR upon activation by flutamide, that are distinct from the potent AhR agonist 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD). In summary, we characterize flutamide as an AhR ligand and demonstrate its AhR-dependent tumor suppressive effects in hepatoma cells. We provide the first direct evidence that AhR regulates TGFβ signaling in a ligand dependent manner. We demonstrate that the AhR-induced downstream transcriptional signature and subsequent biological effects are specific to the AhR ligand. Our studies have broad impact for characterizing the AhR as a new therapeutic target in hepatocellular carcinoma. / Graduation date: 2013 / Access restricted to the OSU Community at author's request from March 28, 2013 - March 28, 2015
82

La reprogrammation métabolique comme facteur de survie induit par les hydrocarbures aromatiques polycycliques, cancérogènes de l'environnement. / metabolic reprogramming as a survival factor induced by polycyclic aromatic hydrocarbons, environmental carcinogens

Hardonnière, Kévin 09 November 2015 (has links)
Différentes études ont montré que les facteurs liés au mode de vie, de même que le vieillissement ou l’amélioration des tests de diagnostic et de screening, ne peuvent à eux seuls expliquer l’incidence croissante des cancers dans les pays dits industrialisés. Bien que des changements de comportements aient conduit à une diminution du nombre de cancers en France, l’incidence des carcinomes hépatocellulaires est toujours en augmentation. D’autres facteurs oncogéniques, tels que l’exposition à des cancérogènes de l’environnement pourraient intervenir. Parmi ceux-ci, les hydrocarbures aromatiques polycycliques (HAP), dont le benzo[a]pyrène (B[a]P) est le chef de file, et qui sont retrouvés notamment dans la fumée de cigarette, les gaz d’échappements ou les aliments grillés, constituent une priorité en termes de santé publique du fait de leurs effets cancérogènes. Une caractéristique-clé commune à tous les cancers a trait à leur métabolisme énergétique particulier, basé sur la glycolyse. Cependant, rien n’est connu quant à une possible reprogrammation métabolique due aux HAP. L’objectif global de mon projet de thèse a donc été d’étudier l’impact in vitro du B[a]P, utilisé à faible concentration, sur le métabolisme énergétique, de préciser le rôle de la reprogrammation métabolique dans le contrôle de la balance survie/apoptose par le B[a]P et de caractériser les mécanismes cellulaires et moléculaires impliqués. Nous avons d’abord identifié une production de monoxyde d’azote (NO) résultant de l’activation de la iNOS par le B[a]P, et agissant comme un signal de survie, possiblement via une hyperpolarisation mitochondriale. Nous avons ensuite démontré que le B[a]P induit une reprogrammation métabolique des cellules en favorisant un métabolisme glycolytique au détriment de la phosphorylation oxydative. Enfin, nous avons identifié IF1, l’inhibiteur physiologique de la F0F1ATPase, comme une nouvelle cible des HAP, participant à la reprogrammation métabolique et capable de promouvoir la survie sous l’effet du B[a]P. Au total, nous montrons que ces altérations du métabolisme mitochondrial promues par le B[a]P, sont à l’origine de signaux de survie dans notre modèle de cellules épithéliales hépatiques F258. Ces mécanismes pourraient ainsi contribuer à la progression tumorale sous l’effet des HAP. / Various studies have shown that factors related to lifestyle (smoking, diet, etc.), as well as aging or even the improved efficiency of diagnostic and screening tests, cannot explain by themselves the rising incidence of cancers in the industrialized countries. Although evolution of behaviors has helped reducing the number of cancers in France, the incidence of hepatocellular carcinomas is still increasing. This alarming result could be related to other oncogenic factors such as chronic exposure to environmental carcinogens. Among these compounds, polycyclic aromatic hydrocarbons (PAHs), including benzo[a]pyrene (B[a]P), the prototype carcinogen of this family, especially found in cigarette smoke, exhaust fumes or grilled food, are a priority in terms of public health due to their high carcinogenic potential. A key feature of cancer cells is related to their predominant glycolytic metabolism. However, nothing is known yet about a possible metabolic reprogramming upon PAH exposure. My PhD project has aimed at characterizing the impact of a low B[a]P concentration on energy metabolism, at clarifying the role of such a metabolic reprogramming in cell fate determination, and at elucidating the cellular and molecular basis of this phenomenon. We first identify a production of nitric oxide (NO), involving the activation of iNOS by B[a]P, and acting as a survival signal. We then demonstrate that B[a]P induces a metabolic reprogramming, thus promoting a glycolytic metabolism at the expense of oxidative phosphorylation. Finally, we identify IF1, the physiological inhibitor of the F0F1ATPase as a new target of PAHs, which participates in the B[a]P-elicited metabolic reprogramming and survival. To sum up, we identify new alterations of mitochondrial metabolism, acting as survival signals in B[a]P-treated rat hepatic epithelial F258 cells. These mechanism could therefore contribute to tumor progression.
83

Carbaryl Exposure to <i>Danio rerio</i> Leads to Activation of the Aryl Hydrocarbon Receptor Pathway

Barnhisel, Taylor 22 April 2021 (has links)
No description available.
84

Study of the aryl hydrocarbon receptor as a target for rational drug design

Xie, Jinghang 01 January 2014 (has links)
The aryl hydrocarbon receptor (AhR) heterodimerizes with the aryl hydrocarbon receptor nuclear translocator (Arnt) for transcriptional regulation. We generated three N-terminal deletion constructs of the human AhR of 12-24 KDa in size—namely D1 (aa 84-295), D2 (aa 84-192) and D3 (aa 191-295)—to suppress the Arnt function. We observed that all three constructs interact with the human Arnt with similar affinities. D2, which contains part of the AhR PAS-A domain and interacts with the PAS-A domain of Arnt, inhibits the formation of the AhR gel shift complex. D2 suppresses the 3-methylcholanthrene-induced, dioxin response element (DRE)-driven luciferase activity in Hep3B cells and exogenous Arnt reverses this D2 suppression. D2 suppresses the induction of CYP1A1 at both the message and protein levels in Hep3B cells; however, the CYP1B1 induction is not affected. D2 suppresses the recruitment of Arnt to the cyp1a1 promoter but not to the cyp1b1 promoter, partly because the AhR/Arnt heterodimer binds better to the cyp1b1 DRE than to the cyp1a1 DRE. Interestingly, D2 has no effect on the cobalt chloride-induced, hypoxia inducible factor-1 (HIF-1)-dependent expression of vegf, aldolase c, and ldh-a messages. Our data reveal that the flanking sequences of the DRE contribute to the binding affinity of the AhR/Arnt heterodimer to its endogenous enhancers and the function of AhR and HIF-1 can be differentially suppressed by the D2 inhibitory molecule. In chapter 2, a Pichia Pastoris expression system was constructed expressing codon optimized human full length AhR. This codon optimization is necessary for overexpression of huAhR. RT-PCR data showed that the codon optimized mRNA was more stably expressed than wild types. Overexpressed huAhR protein was degraded by proteinase when using a regular P. Pastoris strain yJC100 whereas the proteinase deficient ySMD1163 maintained a much higher level of huAhR. P. Pastoris expressed huAhR was natively purified and analyzed. Coimmunopricipitation assay shows its interaction with endogenous Arnt. A ligand-dependent gel shift was also observed. In addition, we performed an in vitro coprecipitation assay to study its binding to endogenous cyp1b1 DREs. The result shows that the DRE3, known as a critical DRE for cyp1b1 transcriptional activity, has the highest binding affinity to AhR/Arnt complex. Taking together, we constructed a novel P. Pastoris expression system to overexpress human full length AhR. Purified huAhR is a good reagent for studing its ligand and DNA binding. In chapter 3, an adeno-associated virus (AAV) expression system was constructed to express an AhR deletion contruct CΔ553 (aa1-295) for tumor injection. Western blot shows the expression of CΔ553 (aa1-295) in hela cells infected by AAV-553, but the low yield of AAV-553 limited its application on tumor treatment. Possible solutions were discussed for future work.
85

The IM-9 cell line: a model for evaluating TCDD-induced modulation of the polymorphic human hs1,2 enhancer within the 3' immunoglobulin heavy chain regulatory region

Chambers-Turner, Ruth C. 26 March 2010 (has links)
No description available.

Page generated in 0.0313 seconds