Analysis of the interaction between the co-chaperone p23 and the aryl hydrocarbon receptor

Thompson, John D.

01 January 2015

The aryl hydrocarbon receptor (AhR) carboxyl terminal transcriptional activation domain was cloned, purified in denatured conditions from bacteria, refolded via limited dialysis, and analyzed for proper refolding via co-immunoprecipitation with the known binding partner SRC-1. This AhR NΔ515 transactivation domain construct was used, along with amino terminal AhR deletion constructs AhR CΔ274 and AhR CΔ553, to attempt to elucidate the nature of the interaction between AhR and p23 in vitro.

Biology

Biological sciences

Ahr

Arnt

Aryl hydrocarbon receptor

P23

Biology

AhR-mediated transcriptional regulation of the human immunoglobulin hs1.2 enhancer

White, Sydney

31 August 2022

No description available.

Pharmacology

Toxicology

Biomedical Sciences

Microbiology and Immunology

TCDD

AhR

The role of environmental and endogenous AHR ligands in estrogen receptor, progesterone receptor, human epidermal growth factor receptor 2-negative (ER-/PR-/HER2-) breast cancer progression

Novikov, Olga

31 July 2017

Recent studies indicate that endogenously ligand-activated Aryl Hydrocarbon Receptor (AHR) plays an important role in normal and pathological processes, including the induction and progression of breast cancer. As the known number of AHR-mediated processes grows, so too does the importance of identifying endogenous AHR ligands that influence breast cancer progression. The following studies focus on two tryptophan metabolism pathway branches, the kynurenine (KYN) branch and the indoxyl sulfate (IS) branch, to determine if ER-/PR-/HER2- breast cancer cells can produce, or are exposed to, AHR ligands from these branches, how these ligands affect cell migration and, if produced, how their production is controlled. It is hypothesized that: 1) malignant cells produce, or derive from their microenvironment, AHR ligands through the KYN and/or IS pathways, 2) these metabolites drive AHR-dependent breast cancer migration, 3) environmental AHR ligands mimic the effects of endogenous ligands, 4) rate-limiting kynurenine pathway enzymes are responsible for endogenous AHR ligand production and their downstream effects, and 5) the AHR controls expression of a rate-limiting kynurenine pathway enzyme(s) in a positive feedback loop. ER-/PR-/HER2- mammary epithelial cells were assayed for production of AHR-activating tryptophan metabolites and for the kynurenine pathway enzymes tryptophan 2,3-dioxygenase (TDO) and indolamine 2,3-dioxygenase (IDO). The relationship between kynurenine and IS pathways, AHR activity, cell migration, and aldehyde dehydrogenase 1 (ALDH1), a cancer stem cell marker associated with poor prognosis, was investigated using tryptophan metabolites, enzyme-specific gene knockdown or over-expression, qPCR, cell migration assays and ALDH1 activity assay. ER-/PR-/HER2- tumor cells produce KYN and its downstream metabolite xanthurenic acid (XA), at levels sufficient to activate the AHR. KYN, XA, and IS significantly accelerate migration in an AHR-dependent fashion, and at physiological doses, while environmental AHR ligands 2,3,7,8-tetrachlorodibenzodioxin (TCDD) and benzo[a]pyrene (B[a]P) mimic this effect. IS induces ALDH1 activity. AHR knockdown or inhibition significantly reduces Tdo2 expression. Finally, gene expression dataset analyses reveal high Tdo2 levels in primary breast tumors, with the highest levels in ER-/PR-/Her2- and stage 4 tumors. These studies identify three tryptophan-derived AHR ligands that contribute to breast cancer progression and demonstrate a positive feedback loop, where AHR activity up-regulates Tdo2, which drives endogenous AHR ligand production.

Molecular biology

AHR

Environment

Tryptophan metabolism

Breast cancer

Aryl Hydrocarbon Receptor Ligands of Widely Different Toxic Equivalency Factors Induce Similar Histone Marks in Target Gene Chromatin

Ovesen, Jerald Lee

January 2010

No description available.

Cellular Biology

Aryl-Hydrocarbon Receptor

AHR

PCB

Dioxin

Modulation of the 3'IgH Regulatory Region (3'IgH RR), a prospective in vitro screening tool for identifying potential immunotoxicants

Henseler, Rebecca Anne

18 December 2007

No description available.

IgH

AhR

IgH RR

TCDD

RR

Primaquine

¿¿¿¿2b

Identification and evaluation of Limosilactobacillus reuteri as an inducer of neonatal IgA and autoimmunity

Swartwout, Brianna Kendall

22 June 2021

Perturbing gut microbiota early in life can lead to the development of autoimmunity. We are just beginning to unravel how early immune programming by microbiota may have long-term effects on noncommunicable diseases. In this thesis, we lay groundwork for programming of the immune system by commensal bacteria early in life through our studies on the induction of early endogenous neonatal IgA, and we evaluate Limosilactobacillus reuteri's characteristics as an inducer. Garnering attention for use a probiotic, L. reuteri has many proven health promoting benefits, such as IgA induction, but emerging evidence also links specific strains to autoimmune disease. "Super-induction" of neonatal IgA can be achieved through cross-fostering immunocompetent pups on immunocompromised dams. We found that this phenomenon was categorically due to transferal of microbes from dam to offspring. By comparing strain CF48-3A to the non-gastric-related organism L. oris, we discovered that L. reuteri is a microorganism that can enhance early neonatal IgA induction. Further investigations revealed that the ability to induce neonatal IgA is not ubiquitous in all L. reuteri strains, as ATCC PTA 6475 did not significantly elevate IgA. We discovered that 6475 has the antigenic ability to stimulate B cell differentiation and IgA production, but it is suppressed by a mechanism related to differences in surface architecture of this strain. L. reuteri strains also vary in their potency of aryl hydrocarbon receptor (AhR) stimulation. In mice, activation of AhR during gestation by a potent prototypical ligand, TCDD, leads to development of autoimmunity offspring. We found that TCDD exacerbated autoimmunity in adult mice using a strain of mice with similar AhR affinity to humans. Further investigations can clarify whether differential AhR ligand expression between L. reuteri strains contributes to the relationship between L. reuteri and autoimmunity. Overall, we conclude that differences between strains of L. reuteri have profoundly different immunological consequences that contribute to our understanding of the linkage between strains and autoimmunity. / Doctor of Philosophy / Differences in microbes transferred to infants through maternal routes shapes the early development of the immune system. In general, transferred microbes are healthy for the infant, and studies suggest that disruption of healthy microbes in the infant gut is linked to long-term health consequences, like autoimmune diseases. We found that a particular difference in maternally transferred microbes increases the early appearance of immunoglobulin A (IgA, a gut-related antibody) in neonatal mice, which is an antibody important for protecting against gut-related infections. We were able to link this early IgA production to a probiotic species Limosilactobacillus reuteri. Within the species classification as L. reuteri, several genetically different strains are health-promoting and broadly marketed over-the-counter for use in probiotic supplements for infants, children, and pregnant and nursing mothers. Emerging scientific evidence also points to a potential connection between other L. reuteri strains and autoimmune disease. Secreted products of genetically different L. reuteri strains have been discovered to activate aryl hydrocarbon receptor (AhR) with various potency. We used a prototypical AhR ligand and found exacerbation of autoimmune disease in adult mice. Thus, we have concluded that different strains of L. reuteri have broadly different effects on immune system development, and strain variability may explain the different effects on autoimmunity that have been observed.

Limosilactobacillus reuteri

probiotic

autoimmunity

AhR

IgA

neonatal immunity

Sim1 function in the developing and adult brain

Yang, Chun

January 2006

Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal.

Sim1

Protéine bHLH-PAS

AHR

Noyau paraventriculaire (PVN)

Promoteur

Régulation génique

Prise alimentaire

Hyperphagie

Adénovirus

Les toxines urémiques provoquent un phénotype procoagulant de l'endothelium par la voie du facteur de transcription AHR / Indolic uremic solutes induce an endothelial procoagulant phenotype via the AHR pathway

Gondouin, Bertrand

20 November 2013

L'insuffisance rénale chronique (IRC) est associée à une importante morbidité et mortalité cardio-vasculaire, à laquelle participent la dysfonction endothéliale. Les patients IRC présentent de plus une susceptibilité accrue aux thromboses qu’elles soient veineuses ou artérielles. Les toxines urémiques sont des solutés s'accumulant dans le sérum et les tissus des patients IRC. Parmi elles, les toxines urémiques liées aux protéines ont une toxicité endothéliale démontrée in vitro. Nous avons démontré que l’indoxyl sulfate (IS) et l’indole acetic acide (IAA), deux toxines liées aux protéines provoquent un phénotype pro coagulant de cellules endothéliales en culture via une production accrue de facteur tissulaire (FT). Le facteur tissulaire est un facteur membranaire procoagulant qui initie la cascade de la coagulation en activant le facteur VII via la voie extrinsèque. Nous avons aussi démontré que la production de FT passe par une voie cellulaire préalablement connue pour son implication dans les processus de detoxification : la voie de l’aryl hydrocarbon receptor (AHR). Dans notre travail, nous montrons que l’IS et l’IAA ont un comportement similaire à l’intoxication par la dioxine. Le lien entre FT et AHR n’avait jamais été démontré auparavant. En conclusion, l’IS et l’IAA participent à la dysfonction endothéliale des patients IRC et à la surmortalité cardiovasculaire, en augmentant la production endothéliale de FT et ainsi en provoquant un phénotype pro coagulant des cellules endothéliales. La voie AHR constitue une cible thérapeutique très intéressante dans la problématique de la surmortalité cardiovasculaire des patients IRC. / Chronic kidney disease (CKD) is associated with significant morbidity and cardiovascular mortality, which involves chronic inflammation, oxidative stress and endothelial dysfunction. CKD patients have a higher risk of venous or arterial thrombosis compared to general population. Uremic toxins are molecules that accumulate in the serum and organs of CKD patients. Among them, protein-bound uremic toxins are poorly removed by dialysis, and their endothelial toxicity had been well demonstrated in vitro. In this thesis, we demonstrated that indoxyl sulfate (IS) and indole acetic acid (IAA ), two protein-bound toxins can cause a pro coagulant phenotype of cultured endothelial cells through an increased production of tissue factor (TF ) Tissue factor is a membrane procoagulant factor that initiates the coagulation cascade by activating factor VII via the extrinsic pathway. We also demonstrated that TF increase was produced via a cellular pathway previously known to be involved in the detoxification processes: the aryl hydrocarbon receptor pathway (AHR) . The canonical ligand of AHR is dioxin, well known for its cardiovascular adverse effects. In this work, we showed that IS and IAA had a “dioxin- like effect”. The link between FT and AHR had never been shown earlier. CKD constitutes an endogenous situation similar to dioxin poisoning. In conclusion, the IS and IAA are involved in endothelial dysfunction in CKD patients and cardiovascular mortality by increasing the endothelial production of TF and thus causing a pro- coagulant phenotype of endothelial cells. AHR pathway is a very interesting therapeutic target in the problematic of cardiovascular mortality in CKD patients .

Endothelium

Insuffisance renale chronique

Facteur tissulaire

AHR

Dioxine

Mortalité cardiovasculaire

Endothelium

Chronic kidney disease

Tissue factor

AHR

Dioxin

Cardiovascular mortality

Papel da exposição à Hidroquinona na artrite reumatoide experimental induzida pelo colágeno / Role of Hydroquinone exposure on experimental collagen-induced arthritis.

Heluany, Cíntia Scucuglia

01 December 2017

Artrite reumatoide (AR) é uma doença autoimune, que causa inflamação crônica nas membranas sinoviais de diversas articulações. O modelo experimenal de artrite induzida pelo colágeno (AIC) é empregado para investigar os mecanismos da AR e para identificar potenciais agentes terapêuticos. Embora a etiologia da AR ainda seja desconhecida, há evidências que a AR se desenvolve em indivíduos predispostos geneticamente, após exposição a fatores ambientais, como o tabagismo, que se destaca como maior fator de risco para indução da AR e para o agravamento em pacientes com AR já estabelecida. Porém, o mecanismo efetivo da ação dos diversos componentes do cigarros ainda precisa ser elucidado. A Hidroquinona (HQ) é um composto fenólico, encontrada em concentração elevada no cigarro, com maior ativade pró-oxidativa, além de ser produto da biotransformação do benzeno, também encontrado no cigarro. Neste caso, a HQ é responsável pela imunotoxicidade e mielotoxicidade do benzeno. Devido a alta exposição de fumantes à HQ e a associação do tabagismo com a AR, investigamos se a exposição à HQ teria participação no desenvolvimento da AIC em ratos Wistar. Para tanto, animais foram expostos à HQ em diferentes protocolos experimentais, a saber: A - por 35 dias consecutivos, durante fase de indução e desenvolvimento da artrite; B - por 14 dias consecutivos, até a segunda injeção de colágeno, na fase de sensibilização e indução da AIC; C - por 7 dias consecutivos, do 29º ao 35º dia, na fase posterior ao desenvolvimento da AIC. Os resultados obtidos mostraram que a HQ agravou a AR nos 3 grupos experimentais, aumentando os parâmetros clínicos, o número de células no líquido sinovial, a inflamação nas sinóvias, caracterizada por maior influxo de neutrófilos, proliferação de sinoviócitos (histologia por HE e imunohistoquímica), aumento nos níveis de IL-6 e IL-1β (ELISA) no líquido sinovial e rearranjo do colágeno na sinóvia (microscopia por segundo harmônico). No entanto, os efeitos mais acentuados foram observados em animais dos grupos A e C, que também tiveram perda de peso significativa. Ademais, exposição à HQ, nos 3 grupos experimentais, causou expressão aumentada do receptor aril hidrocarboneto (AhR), um receptor ativado por xenobióticos durante a AR, e aumento nos níveis do fator de transcrição ROR e de IL-17 na sinóvia. Como AhR/ROR/IL-17 em linfócitos e neutrófilos é uma via importante na gênese da AR, ensaios in vitro foram realizados para elucidar o papel da HQ nesta via. A incubação com HQ in vitro de esplenócitos de animais naive elevou a expressão de AhR e de secreção de IL-17 (por citometria de fluxo), as quais foram bloqueadas pelo antagonista de AhR (α-naftoflavona). Em conjunto, os resultados obtidos nos permitem concluir que a HQ, como um importante componente do cigarro agrava a CIA em ratos, e a ativação via AhR/IL-17 é um possível mecanismo da patogênese da artrite. / Rheumatoid arthritis (RA) is an autoimmune disease that causes chronic inflammation in the joint synovial membranes. The experimental model of collagen-induced arthritis (CIA) is used to investigate the involved mechanisms in RA and to identify novel therapeutic agents. The genesis of RA is multifactorial, involving interplay of genetic and environmental factors and smoking is the trigger factor in the development or RA and worsens the pre-existing RA but the mechanisms undlerlying are yet to be elucidated. Hydroquinone (HQ) is a phenolic compound, found in high concentrations in cigarette, where HQ is the major oxidative component. Moreover, HQ is benzene metabolite, which is also found in cigarette smoke, being responsible for the myelotoxicity and immunotoxicity detected during benzene exposure. Due to this association, we aimed to investigate the role of HQ exposure on CIA development in Wistar rats and the involved mechanisms. Animals were exposed to HQ according to different protocols: A - during 35 consecutive days, during the sensitization and devolpment phases of the disease; B - during 14 consecutive days, until the second injection of collagen, during the sensitization phase; C - during 7 consecutive days, from day 29 to 35, after the development phase of CIA. The results showed that HQ worsened the RA in the 3 experimental protocols, HQ elevated the clinical parameters of CIA development, increased inflammation in the synovial membrane, characterized by increased influx of neutrophis, synoviocytes proliferation (visualized by Immunohistochemistry and Histology analysis), augmented the levels of IL-6 and IL-1β in the synovial fluid (ELISA assay) and led to intense collagen deposition on the synovia. The most pronounced effects where observed in animals from groups A and C, which also had weight body loss. In addition, in the 3 protocols, HQ exposure also increased the expression of AhR receptor, a receptor activated by xenobiotics during RA, and increased the expression of ROR and levels of IL-17 secretion in the synovial membranes. As AhR/ROR/IL-17 in lymphocytes and neutrophils is an important pathway involved in the genesis of RA, in vitro studies have been performed to elucidate the role of HQ exposure in this pathway. The HQ in vitro treatment augmented the expression of AhR and secretion of IL-17 by splenocytes (FACS assay) and the administration of an AhR antagonist (α-naphtoflavone) blocked these effects. Taken together, the results obtained here allow us to conclude that HQ, as an important cigarette component, aggravates CIA in rats, and the activation of AhR/IL-17 pathway is a possible mechanism involved in the RA pathogenesis.

AhR

AhR

Benzene metabolite

Cigarette smoke

Environmental pollution

fumaça do cigarro

Membrana sinovial

Metabólito do benzeno

Poluição ambiental

Ratos

Rats

Synovial membrane

Papel da exposição à Hidroquinona na artrite reumatoide experimental induzida pelo colágeno / Role of Hydroquinone exposure on experimental collagen-induced arthritis.

Cíntia Scucuglia Heluany

01 December 2017

Artrite reumatoide (AR) é uma doença autoimune, que causa inflamação crônica nas membranas sinoviais de diversas articulações. O modelo experimenal de artrite induzida pelo colágeno (AIC) é empregado para investigar os mecanismos da AR e para identificar potenciais agentes terapêuticos. Embora a etiologia da AR ainda seja desconhecida, há evidências que a AR se desenvolve em indivíduos predispostos geneticamente, após exposição a fatores ambientais, como o tabagismo, que se destaca como maior fator de risco para indução da AR e para o agravamento em pacientes com AR já estabelecida. Porém, o mecanismo efetivo da ação dos diversos componentes do cigarros ainda precisa ser elucidado. A Hidroquinona (HQ) é um composto fenólico, encontrada em concentração elevada no cigarro, com maior ativade pró-oxidativa, além de ser produto da biotransformação do benzeno, também encontrado no cigarro. Neste caso, a HQ é responsável pela imunotoxicidade e mielotoxicidade do benzeno. Devido a alta exposição de fumantes à HQ e a associação do tabagismo com a AR, investigamos se a exposição à HQ teria participação no desenvolvimento da AIC em ratos Wistar. Para tanto, animais foram expostos à HQ em diferentes protocolos experimentais, a saber: A - por 35 dias consecutivos, durante fase de indução e desenvolvimento da artrite; B - por 14 dias consecutivos, até a segunda injeção de colágeno, na fase de sensibilização e indução da AIC; C - por 7 dias consecutivos, do 29º ao 35º dia, na fase posterior ao desenvolvimento da AIC. Os resultados obtidos mostraram que a HQ agravou a AR nos 3 grupos experimentais, aumentando os parâmetros clínicos, o número de células no líquido sinovial, a inflamação nas sinóvias, caracterizada por maior influxo de neutrófilos, proliferação de sinoviócitos (histologia por HE e imunohistoquímica), aumento nos níveis de IL-6 e IL-1β (ELISA) no líquido sinovial e rearranjo do colágeno na sinóvia (microscopia por segundo harmônico). No entanto, os efeitos mais acentuados foram observados em animais dos grupos A e C, que também tiveram perda de peso significativa. Ademais, exposição à HQ, nos 3 grupos experimentais, causou expressão aumentada do receptor aril hidrocarboneto (AhR), um receptor ativado por xenobióticos durante a AR, e aumento nos níveis do fator de transcrição ROR e de IL-17 na sinóvia. Como AhR/ROR/IL-17 em linfócitos e neutrófilos é uma via importante na gênese da AR, ensaios in vitro foram realizados para elucidar o papel da HQ nesta via. A incubação com HQ in vitro de esplenócitos de animais naive elevou a expressão de AhR e de secreção de IL-17 (por citometria de fluxo), as quais foram bloqueadas pelo antagonista de AhR (α-naftoflavona). Em conjunto, os resultados obtidos nos permitem concluir que a HQ, como um importante componente do cigarro agrava a CIA em ratos, e a ativação via AhR/IL-17 é um possível mecanismo da patogênese da artrite. / Rheumatoid arthritis (RA) is an autoimmune disease that causes chronic inflammation in the joint synovial membranes. The experimental model of collagen-induced arthritis (CIA) is used to investigate the involved mechanisms in RA and to identify novel therapeutic agents. The genesis of RA is multifactorial, involving interplay of genetic and environmental factors and smoking is the trigger factor in the development or RA and worsens the pre-existing RA but the mechanisms undlerlying are yet to be elucidated. Hydroquinone (HQ) is a phenolic compound, found in high concentrations in cigarette, where HQ is the major oxidative component. Moreover, HQ is benzene metabolite, which is also found in cigarette smoke, being responsible for the myelotoxicity and immunotoxicity detected during benzene exposure. Due to this association, we aimed to investigate the role of HQ exposure on CIA development in Wistar rats and the involved mechanisms. Animals were exposed to HQ according to different protocols: A - during 35 consecutive days, during the sensitization and devolpment phases of the disease; B - during 14 consecutive days, until the second injection of collagen, during the sensitization phase; C - during 7 consecutive days, from day 29 to 35, after the development phase of CIA. The results showed that HQ worsened the RA in the 3 experimental protocols, HQ elevated the clinical parameters of CIA development, increased inflammation in the synovial membrane, characterized by increased influx of neutrophis, synoviocytes proliferation (visualized by Immunohistochemistry and Histology analysis), augmented the levels of IL-6 and IL-1β in the synovial fluid (ELISA assay) and led to intense collagen deposition on the synovia. The most pronounced effects where observed in animals from groups A and C, which also had weight body loss. In addition, in the 3 protocols, HQ exposure also increased the expression of AhR receptor, a receptor activated by xenobiotics during RA, and increased the expression of ROR and levels of IL-17 secretion in the synovial membranes. As AhR/ROR/IL-17 in lymphocytes and neutrophils is an important pathway involved in the genesis of RA, in vitro studies have been performed to elucidate the role of HQ exposure in this pathway. The HQ in vitro treatment augmented the expression of AhR and secretion of IL-17 by splenocytes (FACS assay) and the administration of an AhR antagonist (α-naphtoflavone) blocked these effects. Taken together, the results obtained here allow us to conclude that HQ, as an important cigarette component, aggravates CIA in rats, and the activation of AhR/IL-17 pathway is a possible mechanism involved in the RA pathogenesis.

AhR

fumaça do cigarro

Membrana sinovial

Metabólito do benzeno

Poluição ambiental

Ratos

AhR

Benzene metabolite

Cigarette smoke

Environmental pollution

Rats

Synovial membrane