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Estudo de associação entre polimorfismos genéticos no Receptor de Hidrocarbonetos de Arila (AhR) e o desenvolvimento da Artrite Reumatóide / Association between genetic polymorphisms in the Aryl Hydrocarbon Receptor and Rheumatoid ArthritisJhimmy Talbot 02 March 2011 (has links)
Introdução: A artrite reumatóide (AR) é uma artropatia autoimune, de caráter inflamatório, com prevalência em torno de 1% da população. O tabagismo é considerado o principal fator de risco para o desenvolvimento da AR. O receptor de hidrocarbonetos de arila (AhR), um fator de transcrição intracelular ativado por hidrocarbonetos aromáticos componentes da fumaça do cigarro, foi identificado como alvo de regulação da diferenciação de células Th17. Objetivos: Avaliar se os polimorfismos genéticos do AhR estariam associados ao desenvolvimento da AR , e se este receptor estaria mais expresso em pacientes com AR. Pacientes e Métodos: Nós analisamos sete polimorfismos genéticos por mudança de única base (SNP) por PCR em tempo real utilizando sondas TaqMan em 138 pacientes com AR e 129 indivíduos saudáveis. A quantificação da expressão do mRNA do AhR em células mononucleares isoladas de pacientes com AR e indivíduos saudáveis foi realizada por PCR em tempo real. Resultados: Identificamos que haplótipos formados por SNPs no AhR estariam associados com desenvolvimento da AR, podendo ser fator protetor ou de risco para a doença. Em adição, os pacientes com haplótipos de risco apresentavam doença com índice de atividade elevado, principalmente quando o tabagismo estava presente. De fato, pacientes com AR apresentaram aumento na expressão de AhR (mRNA) em relação a indivíduos saudáveis. Conclusões: Em conjunto estes resultados sugerem que o AhR possui um papel importante para o desenvolvimento da artrite reumatóide. Possivelmente mutações neste receptor podem estar relacionadas com alterações na sua atividade e conseqüentemente na diferenciação de células Th17 e a susceptibilidade a AR. / Introduction: Rheumatoid arthritis (RA) is a chronic autoimmune arthropaty with inflammatory characteristics and prevalence around 1% in the population. Tabagism is the main risk factor to RA development. The aryl hydrocarbon receptor (AhR) is an intracellular transcription factor activated by aromatic hydrocarbons present in smoking, whichwas identified to be a target of regulation of Th17 differentiation. Purpose: Study the relationship of genetic polymorphisms in AhR with RA development, and if this receptor expression is upregulated in RA patients. Patients and Methods: We analyzed seven genetic single nucleotide polymorphisms by Real-Time PCR using TaqMan probes in 138 patients with Rheumatoid Arthritis and 129 healthy controls. The AhR mRNA quantization in mononuclear cells isolated from AR patients and healthy controls has been done by Realt-Time PCR. Results: We identified that AhR haplotypes were associated with RA development and that they could be protector or risk factors to disease. In addition, patients with risk haplotypes showed higher disease activity index, mainly when smoking was present. Indeed, patients with RA showed upregulation in the AhR expression (mRNA) when compared with healthy controls. Conclusions: These results suggest that AhR has an important role in AR development. Probably, mutations in this receptor could be related with alterations in its activity and consequently in the differentiation of Th17 cells and RA susceptibility.
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Inhibitory actions of Ah receptor agonists and indole-containing compounds in breast cancer cell lines and mouse modelsWalker, Kelcey Manae Becker 29 August 2005 (has links)
The aryl hydrocarbon receptor (AhR) binds synthetic and chemoprotective phytochemicals, and research in this laboratory has developed selective AhR modulators (SAhRMs) for treatment of breast cancer. Activation of the AhR through agonists such as TCDD inhibits hormone activation of several E2-responsive genes in breast cancer cell lines. In this study, inhibition of E2-induced proliferation and gene expression by TCDD has been investigated in the uterus of wildtype, ERKO and AhRKO mice. Cyclin D1, DNA polymerase ?, and VEGF mRNA levels are induced by E2 through ER? in the uterus as determined by in situ hybridization studies. TCDD down-regulated E2-induced cyclin D1 and DNA polymerase ? expression, but not E2-induced VEGF expression, in wild-type mice, but not AhRKO mice, confirming the role of the AhR. Furthermore, protein synthesis was not necessary for induction of cyclin D1 or DNA polymerase ?gene expression by E2 or inhibition of these responses by TCDD. Therefore, AhR-ER? crosstalk directly regulates the expression of genes involved in cell proliferation in vivo.
AhR agonists induce down-regulation of ErbB family receptors in multiple tissues/organs suggesting possible inhibitory interactions with chemotherapeutic potential. Recently, it has been reported that the SAhRM 1,1??,2,2??-tetramethyldiindolylmethane inhibited DMBA-induced mammary tumor growth in rats and also inhibited MAPK and PI3-K pathways in human breast cancer cells. BT-474 and MDA-MB-453 cell lines are ErbB2-overexpressing breast cancer cells that express functional AhR and exhibit constitutive activation of MAPK and PI3-K pathways. Therefore, 1,1??,2,2??-tetramethyldiindolylmethane-induced inhibition of ErbB2 signaling was investigated in these cells lines and in the MMTV-c-neu mouse mammary tumor model, which overexpresses ErbB2 in the mammary gland. The growth of ErbB2 overexpressing cell lines and mammary tumors was inhibited by 1,1??,2,2??-tetramethyldiindolylmethane; however, modulation of MAPK or PI3-K pathways and cell cycle proteins nor induction of apoptosis by 1,1',2,2'-tetramethyldiindolylmethane was observed in the ErbB2overexpressing cell lines. Current studies are investigating mitochondrial effects of 1,1??,2,2??-tetramethyldiindolylmethane in the ErbB2-overexpressing cell lines, as well as continuing studies on gene expression profiles in the mammary glands of MMTV-c-neu mice to better understand and identify critical genes that are responsible for ErbB2-mediated transformation and growth of cancer cells/tumors.
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The mechanism of retene toxicity in the early life stages of fishScott, Jason 15 January 2009 (has links)
Alkylphenanthrenes such as retene (7-isopropyl-1-methylphenanthrene) are aquatic contaminants commonly found in anthropogenically-, industrially-, and petroleum-contaminated environments, and have been implicated in crude oil toxicity. In the early life stages (ELS) of fish, exposures to alkylphenanthrenes produce signs of toxicity typical of those observed in exposures to halogenated aromatic hydrocarbons, particularly to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). TCDD, the most toxic congener, serves as the basis of the current mechanism-based risk assessment model. The model assumes that congeners that produce TCDD-like toxicity share a common mode of action and act additively. The mechanism of TCDD-like toxicity is assumed to be mediated by the aryl hydrocarbon receptor (AhR), a ligand-activated transcription factor involved in the xenobiotic response (e.g., induction of cytochrome P450 1A enzymes; CYP1A) and in normal development. CYP1A enzymes are not involved in the mechanism of TCDD toxicity. Alkylphenanthrenes toxic to the ELS of fish are AhR ligands, but in contrast to TCDD, are readily metabolized by CYP1A enzymes. The byproducts of CYP1A metabolism have been implicated in retene toxicity. However, the target tissue of retene and the direct roles of AhR and CYP1A in retene toxicity are unknown, but are expected to be similar to those of TCDD. The results presented in this thesis suggest that in the ELS of fish: (1) the primary target of retene is the cardiovascular system (Chapters 2 & 5); (2) retene toxicity is stage-specific (Chapter 2); (3) the mechanism of retene toxicity is mediated by AhR2, and is independent of CYP1A enzymes (Chapter 5); (4) multiple CYP1A-independent toxicities can result from exposures to different mixtures of CYP1A inducing (retene) and CYP1A inhibiting (alpha-naphthoflavone or 2-aminoanthracene) PAHs (Chapters 3 & 4); and (5) multiple concentration-dependent mechanisms of toxicity (i.e., synergism and response addition) can occur in co-exposures of a CYP1A inducer (retene) with a range of CYP1A inhibitor (alpha-naphthoflavone) concentrations (Chapter 3). Thus, retene toxicity is mechanistically similar to that of TCDD toxicity, suggesting alkylphenanthrenes can be included in the current risk assessment model. However, the observed variable mixture toxicities and species differences in retene toxicity raise questions about the effectiveness of this model. / Thesis (Ph.D, Biology) -- Queen's University, 2009-01-13 12:10:31.373
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DEVELOPMENT OF NOVEL AHR ANTAGONISTSLee, Hyosung 01 January 2010 (has links)
Aryl hydrocarbon receptor (AHR) is a sensor protein, activated by aromatic chemical species for transcriptionally regulating xenobiotic metabolizing enzymes. AHR is also known to be involved in a variety of pathogenesis such as cancer, diabetes mellitus, cirrhosis, asthma, etc. The AHR signaling induced by xenobiotics has been intensively studied whereas its physiological role in the absence of xenobiotics is poorly understood. Despite a number of ligands of AHR have been reported thus far, further applications are still hampered by the lack of specificity and/or the partially agonistic activity. Thus, a pure AHR antagonist is needed for deciphering the AHR cryptic as well as potential therapeutic agent. The Proteolysis Targeting Chimera (PROTAC) is a bi-functional small molecule containing a ligand and proteolysis inducer. PROTAC recruits the target protein to proteolysis machinery and elicits proteolysis. Thus far, a number of PROTAC have been prepared and demonstrated to effectively induce the degradation of targeted protein in cultured cells, validating PROTAC as a useful research tool. In the present study, PROTACs based on apigenin was prepared and demonstrated to induce the degradation of AHR, providing the proof of concept. To improve activity, a synthetic structure, CH-223191, was optimized for antagonistic activity by positional scanning identifying several AHR antagonists. PROTACs based on the optimal structure were prepared and assessed their biological activity. The products and synthetic scheme described hereby will be helpful for the further understanding on AHR biology as well as for developing therapeutic agents targeting AHR.
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Exploring the Independent and Combined Effects of Persistent Organic Pollutants and Hypoxia on Human Adipocyte FunctionsMyre, Maxine 14 January 2014 (has links)
Persistent organic pollutants (POPs) and adipose tissue hypoxia have been shown to independently affect adipocyte functions. The goals of this study were to (1) determine the effect of PCB-77, PCB-153, and DDE on the differentiation of human preadipocytes, and (2) investigate the cross-talk between PCB-77 and hypoxia in differentiated human adipocytes. First, human preadipocytes were exposed to PCB-77, PCB-153, or DDE during the entire 14-day differentiation period. We found no effect of low POP levels on lipid accumulation. Second, differentiated human adipocytes were exposed to a combination of PCB-77 and hypoxia. We demonstrated gene-specific cross-talk between PCB-77 and hypoxia, showing an additive effect of PCB-77 on VEGF, MCP-1, and adiponectin, as well as an inhibition of PCB-77-induced expression of CYP1A1 by hypoxia. This work has expanded our understanding of the role of POPs and hypoxia in differentiated human adipocytes.
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Modulators of innate gut immunity to enteric viral infections : murine norovirus (MNV) as a modelEisa, Osama Eltayeb Idris January 2018 (has links)
Challenged by a huge and diverse antigenic stimulus, the intestinal mucosa has developed a unique immune system that mainly functions to maintain tolerance to innocuous antigens while retaining the ability to respond swiftly to pathogenic threats. Central to this specialised immune system are the Intraepithelial Lymphocytes (IELs). These cells are uniquely located between Intestinal Epithelial Cells (IECs) ready to respond to exogenous antigens in the intestinal lumen. The intestinal immune system is constantly influenced, not only by the commensal microbiota, but also by the nutritional status of the host and the availability of certain essential micronutrients that are derived from a healthy-balanced diet. Additionally, age has a significant impact on the efficiency of gut immunity in responding to infectious pathogens, as reflected by the increased burden of gastrointestinal infections at the extremes of age. In this thesis, using the Murine Norovirus (MNV) oral infection model, I aimed to characterize intestinal mucosal antiviral-responses with specific focus on the role of IELs, the impact of aging and the influence of certain micronutrients whose effects are mediated through the Aryl Hydrocarbon Receptor (AhR). Employing different knock-out and adoptive transfer experiments, I concluded that, at least in our experimental conditions and in a viral strain-specific manner, the activated IELs are not essential and may play a minor role in the protective response against MNV infection. This work also demonstrated that various MNV virus strains activate IELs differentially and for the first time (to our knowledge) revealed distinct abilities of these different Norovirus variants to infect IECs. Recognising an impaired response in old (2-year) mice, we were also able to identify a specific defect in the IFN-Lambda response of aged IECs. Furthermore, using the model of MNV infection to investigate the role of AhR signalling, the data I generated suggested a direct link between constitutive AhR signalling and innate interferon-mediated responses. These findings have uncovered a potential preventive/therapeutic targets for enhancing anti-viral responses.
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Exploring the Independent and Combined Effects of Persistent Organic Pollutants and Hypoxia on Human Adipocyte FunctionsMyre, Maxine January 2014 (has links)
Persistent organic pollutants (POPs) and adipose tissue hypoxia have been shown to independently affect adipocyte functions. The goals of this study were to (1) determine the effect of PCB-77, PCB-153, and DDE on the differentiation of human preadipocytes, and (2) investigate the cross-talk between PCB-77 and hypoxia in differentiated human adipocytes. First, human preadipocytes were exposed to PCB-77, PCB-153, or DDE during the entire 14-day differentiation period. We found no effect of low POP levels on lipid accumulation. Second, differentiated human adipocytes were exposed to a combination of PCB-77 and hypoxia. We demonstrated gene-specific cross-talk between PCB-77 and hypoxia, showing an additive effect of PCB-77 on VEGF, MCP-1, and adiponectin, as well as an inhibition of PCB-77-induced expression of CYP1A1 by hypoxia. This work has expanded our understanding of the role of POPs and hypoxia in differentiated human adipocytes.
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REGULATION OF INTRACELLULAR ARYL HYDROCARBON RECEPTOR PROTEIN LEVELSChen, Jinyun 01 January 2020 (has links)
The aryl hydrocarbon receptor (AHR) is a ligand-activated signaling molecule which controls tumor growth and metastasis, T cell differentiation, and liver development. Expression levels of this receptor protein are sensitive to the cellular p23 protein levels in immortalized cancer cell lines. As little as 30% reduction of the p23 cellular content can suppress the AHR function. Here we reported that down-regulation of the p23 protein content in normal, untransformed human bronchial/tracheal epithelial cells to 48% of its content also suppresses the AHR protein levels to 54% of its content. This p23-mediated suppression of AHR is responsible for the repression of (1) the ligand-dependent induction of the cyp1a1 gene transcription; (2) the benzo[a]pyrene- or cigarette smoke condensate-induced CYP1A1 enzyme activity, and (3) the benzo[a]pyrene and cigarette smoke condensate-mediated production of reactive oxygen species. Reduction of the p23 content does not alter expression of oxidative stress genes or production of PGE2. Down-regulation of p23 suppresses the AHR protein levels in two other untransformed cell types, namely human breast MCF-10A and mouse immune regulatory Tr1 cells. Collectively, down-regulation of p23 suppresses the AHR protein levels in normal and untransformed cells and can in principle protect our lung epithelial cells from AHR-dependent oxidative damage caused by exposure to agents from environment and cigarette smoking.
The AHR is expressed in triple-negative and non-triple-negative breast cancer cells. It affects breast cancer growth and crosstalk with the estrogen receptor signaling. Normally the AHR is degraded shortly after ligand activation via the action of 26S proteasome. Here we report that the piperazinylpyrimidine compound Q18 triggers AHR protein degradation which is mediated through chaperone-mediated autophagy in triple-negative breast cancer cells (MDA-MB-468 and MDA-MB-231). This lysosomal degradation of AHR exhibits the following characteristics: (1) not observed in non-triple-negative breast cancer cells (MCF-7, T47D, and MDA-MB-361); (2) inhibited by progesterone receptor B but not estrogen receptor alpha; (3) reversed by chloroquine but not MG132; (4) required LAMP2A; (5) triggered by 6 amino-nicotinamide and starvation and (6) involved AHR-LAMP2A interaction mediated by 6 amino-nicotinamide and starvation. The NEKFF sequence localized at amino acid 558 of human AHR is a KFERQ-like motif of chaperone-mediated autophagy, essential for the LAMP2A-mediated AHR protein degradation.
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Optimizing the human aryl hydrocarbon receptor (hAHR) expression in Pichia pastorisqian, junyu 01 January 2022 (has links)
The aryl hydrocarbon receptor (AHR) is a transcription factor which heterodimerizes with the aryl hydrocarbon receptor nuclear translocator (Arnt) to regulate downstream gene transcription. For the purpose of studying the crystal structure of human aryl hydrocarbon receptor (hAHR), it is essential to obtain abundant amount of pure recombinant protein.Basing on the benefits of using P. pastoris system to produce recombinant protein, including appropriate folding, secretion of interest proteins to the external environment of the cell, and easier purification process of protein due to the its limited production of endogenous secretory proteins [1], our lab chose P. pastoris yeast as the host to overexpress human AHR.
My lab has successfully used the protease-deficient P. pastoris (ySMD1163) strain to express AHR [2], but unfortunately the yield is modest, presumably due to low copy number. My work addressed whether increasing the copy number of hAHR in the yeast genome would increase the expression level of hAHR in Pichia pastoris. Results from my experiments showed that although the copy number correlated with the expression levels of hAHR, the increased expression of the hAHR largely in the pellet, suggesting that the soluble expression of hAHR can’t be enhanced merely by increasing its production.
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Investigation and modulation of the aryl hydrocarbon receptor nuclear translocator-dependent signaling mechanismsJensen, Kyle Andrew 01 January 2006 (has links)
The aryl hydrocarbon receptor nuclear translocator (ARNT) is a promiscuous protein serving as a required dimerization partner for the aryl hydrocarbon receptor (AhR) and hypoxia inducible factor-1α (HIF-1α) transcription factors. Additionally it serves as a potent co-activator for estrogen receptor (ER) signaling. We sought to take advantage of these cross-talk mechanisms by designing an AhR construct that can influence the regulation of these pathways by sequestering ARNT. CΔ553 is a truncated form of the AhR lacking the C-terminal 553 amino acids which harbors the complete transactivation (TAD) and significant portions of the ligand binding (LBD) domains. Altering the LBD allows CΔ553 to become constitutively active and has been shown to associate with ARNT and bind DNA. Without the TAD, CΔ553 cannot recruit co-activators to the promoter so that no activation of gene transcription may occur. Transient transfection studies using a corresponding luciferase reporter plasmid in MCF-7 cells showed that CΔ553 effectively suppressed the AhR, HIF-1α, and ER signaling pathways. RT/real-time QPCR data showed that CΔ553 blocked the up-regulation of the target genes controlled by AhR ( CYP1A1 ), HIF-1α ( VEGF, aldolase C , and LDH-A ), and ER ( GREB1 ) in breast cancer cells. Since both HIF-1α and ER are highly active in ER-positive breast cancers, CΔ553 has the potential to be developed as a protein drug to treat breast cancer by blocking these two signaling pathways. Seeking to determine if complete suppression of genes is possible with CΔ553, a tetracycline regulated retroviral expression system is investigated along with the possibilities for cellular administration via the HIV-1 Tat protein transduction domain. Since ARNT dimerizes with both AhR and HIF-1α, we present further studies looking into the role protein factors play in the activation of each system. Previously within our lab p23 and Cyp40, two components of the hsp90 chaperon complex, were found to facilitate the formation of the AhR•ARNT•DNA binding complex. Analysis of these proteins within the hypoxia signaling pathway found that only p23 was capable of generating the HIF-1α•ARNT•DNA binding complex.
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