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Literature DB >> 24768377

Increased reactive oxygen species production in epicardial adipose tissues from coronary artery disease patients is associated with brown-to-white adipocyte trans-differentiation.

Elena Dozio¹, Elena Vianello², Silvia Briganti³, Bruno Fink⁴, Alexis Elias Malavazos³, Elisabetta Thea Scognamiglio², Giada Dogliotti², Alexander Sigrüener⁵, Gerd Schmitz⁵, Massimiliano Marco Corsi Romanelli⁶.

Abstract

Entities: Chemical Disease Species

Keywords: Brown adipocytes; Coronary artery disease; Electron paramagnetic resonance; Epicardial adipose tissue; Reactive oxygen species; Subcutaneous adipose tissue

Mesh：

Substances：
Reactive Oxygen Species

Year: 2014 PMID： 24768377 DOI： 10.1016/j.ijcard.2014.04.045

Source DB: PubMed Journal: Int J Cardiol ISSN： 0167-5273 Impact factor: 4.164

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13 in total

1. Imbalance in thioredoxin system activates NLRP3 inflammasome pathway in epicardial adipose tissue of patients with coronary artery disease.

Authors: Hossein Shateri; Babak Manafi; Heidar Tayebinia; Jamshid Karimi; Iraj Khodadadi
Journal: Mol Biol Rep Date: 2021-02-10 Impact factor: 2.316

2. Reply to Katlandur, Ozbek, and Keser.

Authors: Eugenia Carvalho; Gary D Lopaschuk; Elisabet Børsheim; Ana Burgeiro
Journal: Am J Physiol Endocrinol Metab Date: 2016-05-15 Impact factor: 4.310

Review 3. Thermogenic potential and physiological relevance of human epicardial adipose tissue.

Authors: K Chechi; D Richard
Journal: Int J Obes Suppl Date: 2015-08-04

4. UCP1 expression-associated gene signatures of human epicardial adipose tissue.

Authors: Kanta Chechi; Jinchu Vijay; Pierre Voisine; Patrick Mathieu; Yohan Bossé; Andre Tchernof; Elin Grundberg; Denis Richard
Journal: JCI Insight Date: 2019-04-18

Review 5. Epicardial adipose tissue as a metabolic transducer: role in heart failure and coronary artery disease.

Authors: Vaibhav B Patel; Saumya Shah; Subodh Verma; Gavin Y Oudit
Journal: Heart Fail Rev Date: 2017-11 Impact factor: 4.214

Review 6. 'Browning' the cardiac and peri-vascular adipose tissues to modulate cardiovascular risk.

Authors: Peter Aldiss; Graeme Davies; Rachel Woods; Helen Budge; Harold S Sacks; Michael E Symonds
Journal: Int J Cardiol Date: 2016-11-09 Impact factor: 4.164

7. Aberrant Epicardial Adipose Tissue Extracellular Matrix Remodeling in Patients with Severe Ischemic Cardiomyopathy: Insight from Comparative Quantitative Proteomics.

Authors: Ding-Sheng Jiang; Hao-Long Zeng; Rui Li; Bo Huo; Yun-Shu Su; Jing Fang; Qing Yang; Li-Gang Liu; Min Hu; Cai Cheng; Xue-Hai Zhu; Xin Yi; Xiang Wei
Journal: Sci Rep Date: 2017-03-03 Impact factor: 4.379

8. Functional characterization of the Ucp1-associated oxidative phenotype of human epicardial adipose tissue.

Authors: Kanta Chechi; Pierre Voisine; Patrick Mathieu; Mathieu Laplante; Sébastian Bonnet; Frédéric Picard; Philippe Joubert; Denis Richard
Journal: Sci Rep Date: 2017-11-14 Impact factor: 4.379

9. Overexpression of scavenger receptor and infiltration of macrophage in epicardial adipose tissue of patients with ischemic heart disease and diabetes.

Authors: Concepción Santiago-Fernández; Luis M Pérez-Belmonte; Mercedes Millán-Gómez; Inmaculada Moreno-Santos; Fernando Carrasco-Chinchilla; Amalio Ruiz-Salas; Luis Morcillo-Hidalgo; José M Melero; Lourdes Garrido-Sánchez; Manuel Jiménez-Navarro
Journal: J Transl Med Date: 2019-03-20 Impact factor: 5.531

Review 10. Sestrin2, a Regulator of Thermogenesis and Mitohormesis in Brown Adipose Tissue.

Authors: Seung-Hyun Ro; Ian Semple; Allison Ho; Hwan-Woo Park; Jun Hee Lee
Journal: Front Endocrinol (Lausanne) Date: 2015-07-24 Impact factor: 5.555