Nakajima 2019 Sci Rep

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Nakajima T, Yokota T, Shingu Y, Yamada A, Iba Y, Ujihira K, Wakasa S, Ooka T, Takada S, Shirakawa R, Katayama T, Furihata T, Fukushima A, Matsuoka R, Nishihara H, Dela F, Nakanishi K, Matsui Y, Kinugawa S (2019) Impaired mitochondrial oxidative phosphorylation capacity in epicardial adipose tissue is associated with decreased concentration of adiponectin and severity of coronary atherosclerosis. Sci Rep 9:3535.

» PMID: 30837669 Open Access

Nakajima T, Yokota T, Shingu Y, Yamada A, Iba Y, Ujihira K, Wakasa S, Ooka T, Takada S, Shirakawa R, Katayama T, Furihata T, Fukushima A, Matsuoka R, Nishihara H, Dela F, Nakanishi K, Matsui Y, Kinugawa S (2019) Sci Rep

Abstract: Epicardial adipose tissue (EAT), a source of adipokines, is metabolically active, but the role of EAT mitochondria in coronary artery disease (CAD) has not been established. We investigated the association between EAT mitochondrial respiratory capacity, adiponectin concentration in the EAT, and coronary atherosclerosis. EAT samples were obtained from 25 patients who underwent elective cardiac surgery. Based on the coronary angiographycal findings, the patients were divided into two groups; coronary artery disease (CAD; n = 14) and non-CAD (n = 11) groups. The mitochondrial respiratory capacities including oxidative phosphorylation (OXPHOS) capacity with non-fatty acid (complex I and complex I + II-linked) substrates and fatty acids in the EAT were significantly lowered in CAD patients. The EAT mitochondrial OXPHOS capacities had a close and inverse correlation with the severity of coronary artery stenosis evaluated by the Gensini score. Intriguingly, the protein level of adiponectin, an anti-atherogenic adipokine, in the EAT was significantly reduced in CAD patients, and it was positively correlated with the mitochondrial OXPHOS capacities in the EAT and inversely correlated with the Gensini score. Our study showed that impaired mitochondrial OXPHOS capacity in the EAT was closely linked to decreased concentration of adiponectin in the EAT and severity of coronary atherosclerosis.


Bioblast editor: Plangger M O2k-Network Lab: JP Sapporo Yokota T, DK Copenhagen Larsen S


Labels: MiParea: Respiration  Pathology: Cardiovascular 

Organism: Human  Tissue;cell: Fat  Preparation: Permeabilized tissue 


Coupling state: LEAK, OXPHOS, ET  Pathway: F, N, NS  HRR: Oxygraph-2k 

Labels, 2019-03