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49 results on '"Dufour, Catherine R."'

4. The amino acid sensor GCN2 controls red blood cell clearance and iron metabolism through regulation of liver macrophages

Author

Toboz, Phoenix, Amiri, Mehdi, Tabatabaei, Negar, Dufour, Catherine R., Kim, Seung Hyeon, Fillebeen, Carine, Ayemoba, Charles E., Khoutorsky, Arkady, Nairz, Manfred, Shao, Lijian, Pajcini, Kostandin V., Kim, Ki-Wook, Giguère, Vincent, Oliveira, Regiana L., Constante, Marco, Santos, Manuela M., Morales, Carlos R., Pantopoulos, Kostas, Sonenberg, Nahum, Pinho, Sandra, and Tahmasebi, Soroush

Published
2022

5. The amino acid sensor GCN2 suppresses terminal oligopyrimidine (TOP) mRNA translation via La-related protein 1 (LARP1)

Author

Farooq, Zeenat, Kusuma, Fedho, Burke, Phillip, Dufour, Catherine R., Lee, Duckgue, Tabatabaei, Negar, Toboz, Phoenix, Radovani, Ernest, Greenblatt, Jack F., Rehman, Jalees, Class, Jacob, Khoutorsky, Arkady, Fonseca, Bruno D., Richner, Justin M., Mercier, Eloi, Bourque, Guillaume, Giguère, Vincent, Subramaniam, Arvind R., Han, Jaeseok, and Tahmasebi, Soroush

Published
2022
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8. Integrated multi-omics analysis of adverse cardiac remodeling and metabolic inflexibility upon ErbB2 and ERRα deficiency

Author

Dufour, Catherine R., Xia, Hui, B’chir, Wafa, Perry, Marie-Claude, Kuzmanov, Uros, Gainullina, Anastasiia, Dejgaard, Kurt, Scholtes, Charlotte, Ouellet, Carlo, Zuo, Dongmei, Sanguin-Gendreau, Virginie, Guluzian, Christina, Smith, Harvey W., Muller, William J., Audet-Walsh, Etienne, Sergushichev, Alexey A., Emili, Andrew, and Giguère, Vincent

Published
2022
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22. An ErbB2/c-Src axis links bioenergetics with PRC2 translation to drive epigenetic reprogramming and mammary tumorigenesis

Author

Smith, Harvey W., Hirukawa, Alison, Sanguin-Gendreau, Virginie, Nandi, Ipshita, Dufour, Catherine R., Zuo, Dongmei, Tandoc, Kristofferson, Leibovitch, Matthew, Singh, Salendra, Rennhack, Jonathan P., Swiatnicki, Matthew, Lavoie, Cynthia, Papavasiliou, Vasilios, Temps, Carolin, Carragher, Neil O., Unciti-Broceta, Asier, Savage, Paul, Basik, Mark, van Hoef, Vincent, Larsson, Ola, Cooper, Caroline L., Vargas Calderon, Ana Cristina, Beith, Jane, Millar, Ewan, Selinger, Christina, Giguère, Vincent, Park, Morag, Harris, Lyndsay N., Varadan, Vinay, Andrechek, Eran R., O’Toole, Sandra A., Topisirovic, Ivan, and Muller, William J.

Published
2019
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27. Loss of hepatic Flcn protects against fibrosis and inflammation by activating autophagy pathways

Author

Paquette, Mathieu, primary, Yan, Ming, additional, Ramírez-Reyes, Josué M. J., additional, El-Houjeiri, Leeanna, additional, Biondini, Marco, additional, Dufour, Catherine R., additional, Jeong, Hyeonju, additional, Pacis, Alain, additional, Giguère, Vincent, additional, Estall, Jennifer L., additional, Siegel, Peter M., additional, Audet-Walsh, Étienne, additional, and Pause, Arnim, additional

Published
2021
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34. Estrogen-related receptors are targetable ROS sensors

Author

Vernier, Mathieu, primary, Dufour, Catherine R., additional, McGuirk, Shawn, additional, Scholtes, Charlotte, additional, Li, Xiaojing, additional, Bourmeau, Guillaume, additional, Kuasne, Hellen, additional, Park, Morag, additional, St-Pierre, Julie, additional, Audet-Walsh, Etienne, additional, and Giguère, Vincent, additional

Published
2020
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36. Targeting EZH2 reactivates a breast cancer subtype-specific anti-metastatic transcriptional program

Author

Hirukawa, Alison, primary, Smith, Harvey W., additional, Zuo, Dongmei, additional, Dufour, Catherine R., additional, Savage, Paul, additional, Bertos, Nicholas, additional, Johnson, Radia M., additional, Bui, Tung, additional, Bourque, Guillaume, additional, Basik, Mark, additional, Giguère, Vincent, additional, Park, Morag, additional, and Muller, William J., additional

Published
2018
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39. Nuclear mTOR acts as a transcriptional integrator of the androgen signaling pathway in prostate cancer

Author

Audet-Walsh, Étienne, primary, Dufour, Catherine R., additional, Yee, Tracey, additional, Zouanat, Fatima Z., additional, Yan, Ming, additional, Kalloghlian, Georges, additional, Vernier, Mathieu, additional, Caron, Maxime, additional, Bourque, Guillaume, additional, Scarlata, Eleonora, additional, Hamel, Lucie, additional, Brimo, Fadi, additional, Aprikian, Armen G., additional, Lapointe, Jacques, additional, Chevalier, Simone, additional, and Giguère, Vincent, additional

Published
2017
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41. Divergent Role of Estrogen-Related Receptor α in Lipid- and Fasting-Induced Hepatic Steatosis in Mice.

Author

B'chir, Wafa, Dufour, Catherine R, Ouellet, Carlo, Yan, Ming, Tam, Ingrid S, Andrzejewski, Sylvia, Xia, Hui, Nabata, Kylie, St-Pierre, Julie, and Giguère, Vincent

Abstract

Given the increasing prevalence of obesity and the metabolic syndrome, identification of intrinsic molecular programs responsible for ensuring fuel homeostasis and preventing metabolic disease is needed. We investigated whether the orphan nuclear receptor estrogen-related receptor α (ERRα), a major regulator of energy metabolism, plays a role in lipid homeostasis and the development of nonalcoholic fatty liver disease (NAFLD) in response to chronic high-fat diet (HFD) consumption and long-term fasting. Systemic ablation of ERRα in mice demonstrated clear beneficial effects for loss of ERRα function in protection from HFD-provoked body weight gain manifested not only from a reduction in white adipose tissue stores but also from an impediment in intrahepatic lipid accumulation. The prevention of HFD-induced NAFLD in ERRα-null mice was underscored by transcriptional repression of de novo lipogenesis, which was upregulated in wild-type mice, a known contributing factor to lipid-stimulated hepatic steatosis. Surprisingly, given these findings, ERRα deficiency had no significant impact on the degree of fasting-induced NAFLD, involving the mobilization of adipocyte triglyceride (TG) stores into the liver. However, the presence of ERRα was essential for acute refeeding-mediated reversal of fasting-induced hepatic TG accretion, underpinned by impaired downregulation of adipose TG lipolysis and reduced hepatic mitochondrial oxidative activity. Taken together, the regulation of lipid handling by ERRα depended on the nutritional state, suggesting that negative modulation of ERRα activity could be envisaged to prevent lipid-induced NAFLD, whereas inducing its activity would be useful to treat and reverse the instilled disease.

Published
2018
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46. Loss of estrogen-related receptor α promotes hepatocarcinogenesis development via metabolic and inflammatory disturbances.

Author

Eui-Ju Hong, Levasseur, Marie-Pier, Dufour, Catherine R., Perry, Marie-Claude, and Giguère, Vincent

Subjects
ESTROGEN-related receptors, CANCER cell physiology, MACROPHAGE activation, LIVER cancer, KUPFFER cells, KREBS cycle
Abstract

Estrogen-related receptor α (ERRα) is a key regulator of mitochondrial function and metabolism essential for energy-driven cellular processes in both normal and cancer cells. ERRα has also been shown to mediate bone-derived macrophage activation by proinflammatory cytokines. However, the role of ERRα in cancer in which inflammation acts as a tumor promoter has yet to be investigated. Herein we show that global loss of ERRα accelerates the development of diethylnitrosamine (DEN)-induced hepatocellular carcinoma. Biochemical and metabolomics studies revealed that loss of ERRα promotes hepatocyte necrosis over apoptosis in response to DEN due to a deficiency in energy production. We further show that increased hepatocyte death and associated compensatory proliferation observed in DEN-injured ERRα-null livers is concomitant with increased nuclear factor κB (NF-κB)–dependent transcriptional control of cytokine expression in Kupffer cells. In particular, we demonstrate that loss of ERRα-dependent regulation of the NF-κB inhibitor IκBα leads to enhanced NF-κB activity and cytokine gene activation. Our work thus shows that global loss of ERRα activity promotes hepatocellular carcinoma by independent but synergistic mechanisms in hepatocytes and Kupffer cells, implying that pharmacological manipulation of ERRα activity may have a significant clinical impact on carcinogen-induced cancers. [ABSTRACT FROM AUTHOR]

Published
2013
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47. miR-378∗ Mediates Metabolic Shift in Breast Cancer Cells via the PGC-1β/ERRγ Transcriptional Pathway.

Author

Eichner, Lillian J., Perry, Marie-Claude, Dufour, Catherine R., Bertos, Nicholas, Park, Morag, St-Pierre, Julie, and Giguère, Vincent

Subjects
REGULATION of cell metabolism, CANCER cells, BREAST cancer, GENETIC transcription, GLYCOLYSIS, BIOENERGETICS, IN situ hybridization, GENE expression
Abstract

Summary: Cancer cell metabolism is often characterized by a shift from an oxidative to a glycolytic bioenergetics pathway, a phenomenon known as the Warburg effect. miR-378 is embedded within PPARGC1b which encodes PGC-1β, a transcriptional regulator of oxidative energy metabolism. Here we show that miR-378 expression is regulated by ERBB2 and induces a metabolic shift in breast cancer cells. miR-378 performs this function by inhibiting the expression of two PGC-1β partners, ERRγ and GABPA, leading to a reduction in tricarboxylic acid cycle gene expression and oxygen consumption as well as an increase in lactate production and in cell proliferation. In situ hybridization experiments show that miR-378 expression correlates with progression of human breast cancer. These results identify miR-378 as a molecular switch involved in the orchestration of the Warburg effect in breast cancer cells via interference with a well-integrated bioenergetics transcriptional pathway. [ABSTRACT FROM AUTHOR]

Published
2010
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48. Physiological Genomics Identifies Estrogen-Related Receptor α as a Regulator of Renal Sodium and Potassium Homeostasis and the Renin-Angiotensin Pathway

Author

Tremblay, Annie M., Dufour, Catherine R., Ghahremani, Majid, Reudelhuber, Timothy L., and Giguère, Vincent

Abstract

Estrogen-related receptor α (ERRα) is an orphan nuclear receptor highly expressed in the kidney, an organ playing a central role in blood pressure regulation through electrolyte homeostasis and the renin-angiotensin system. Physiological analysis revealed that, relative to wild-type mice, ERRα null mice are hypotensive despite significant hypernatremia, hypokalemia, and slight hyperreninemia. Using a combination of genome-wide location analysis and expression profiling, we demonstrate that ERRα regulates the expression of channels involved in renal Na+and K+handling (Scnn1a, Atp1a1, Atp1b1) and altered in Bartter syndrome (Bsnd, Kcnq1). In addition, ERRα regulates the expression of receptors implicated in the systemic regulation of blood pressure (Ghr, Gcgr, Lepr, Npy1r) and of genes within the renin-angiotensin pathway (Ren1, Agt, Ace2). Our study thus identifies ERRα as a pleiotropic regulator of renal control of blood pressure, renal Na+/K+homeostasis, and renin-angiotensin pathway and suggests that modulation of ERRα activity could represent a potential avenue for the management of hypertension.

Published
2009
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49. Physiological genomics identifies estrogen-related receptor alpha as a regulator of renal sodium and potassium homeostasis and the renin-angiotensin pathway.

Author

Tremblay AM, Dufour CR, Ghahremani M, Reudelhuber TL, and Giguère V

Subjects
Animals, Bartter Syndrome physiopathology, Chromatin Immunoprecipitation, Gene Expression Profiling, Genomics methods, Hypotension genetics, Hypotension metabolism, Hypotension physiopathology, Ion Pumps genetics, Ion Pumps metabolism, Male, Mice, Mice, Knockout, Oligonucleotide Array Sequence Analysis, Promoter Regions, Genetic, RNA, Small Interfering, Receptors, Estrogen deficiency, Receptors, Estrogen genetics, Receptors, Estrogen metabolism, Sodium, Dietary adverse effects, ERRalpha Estrogen-Related Receptor, Blood Pressure genetics, Blood Pressure physiology, Gene Expression Regulation, Kidney metabolism, Receptors, Estrogen physiology, Renin-Angiotensin System genetics, Water-Electrolyte Balance
Abstract

Estrogen-related receptor alpha (ERRalpha) is an orphan nuclear receptor highly expressed in the kidney, an organ playing a central role in blood pressure regulation through electrolyte homeostasis and the renin-angiotensin system. Physiological analysis revealed that, relative to wild-type mice, ERRalpha null mice are hypotensive despite significant hypernatremia, hypokalemia, and slight hyperreninemia. Using a combination of genome-wide location analysis and expression profiling, we demonstrate that ERRalpha regulates the expression of channels involved in renal Na(+) and K(+) handling (Scnn1a, Atp1a1, Atp1b1) and altered in Bartter syndrome (Bsnd, Kcnq1). In addition, ERRalpha regulates the expression of receptors implicated in the systemic regulation of blood pressure (Ghr, Gcgr, Lepr, Npy1r) and of genes within the renin-angiotensin pathway (Ren1, Agt, Ace2). Our study thus identifies ERRalpha as a pleiotropic regulator of renal control of blood pressure, renal Na(+)/K(+) homeostasis, and renin-angiotensin pathway and suggests that modulation of ERRalpha activity could represent a potential avenue for the management of hypertension.

Published
2010
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