ACE-inhibition, but not weight reduction restores cardiomyocyte response to β-adrenergic stimulation in the metabolic syndrome

Nevelsteen, Ines; Bito, Virginie; Mieren, Gerry Van der; Vanderper, Annelies; Bergh, An Van Den; Sipido, Karin R.; Mubagwa, Kanigula; Herijgers, Paul

doi:10.1186/1471-2261-13-51

Cited by 14 publications

(16 citation statements)

References 30 publications

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“…It seems that oxidation-induced disruption of cellular redistributed signaling molecules in response to insulin stimulation is associated with impaired insulin action in case of many pathological conditions such as obesity The clustering of metabolic abnormality is closely related to the progression of cardiovascular disorders (Balderas-Villalobos et al 2013;Merabet et al 2015;Okatan et al 2016). Indeed, a correlation between obesity, insulin resistance and contractile dyfunction at most due to defect in intracellular Ca 2+ handling in rat heart with MetS have been observed, previously (Balderas-Villalobos et al 2013;Nevelsteen et al 2013). ECG is one of the standard technologies used to monitor and assess cardiac function, and provide insight into the mechanisms driving myocardial pathology.…”

Section: R a F Tmentioning

confidence: 99%

Onset of decreased heart work is correlated with increased heart rate and shortened QT interval in high-carbohydrate fed overweight rats

Durak

Olğar

Tuncay

et al. 2017

Can. J. Physiol. Pharmacol.

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Mechanical activity of the heart is adversely affected with metabolic syndrome (MetS) characterized with increased body-mass and marked insulin-resistance.Herein, we examined effects of high-carbohydrate intake on cardiac functional abnormalities via evaluating in situ heart-work, heart-rate and electrocardiograms (ECG) in rats. MetS is induced in Wistar male rats by adding 32% sucrose for 22-24 weeks and confirmed with insulin-resistance, increased body-weight, blood glucose and insulin, systolic and diastolic blood pressures besides significant left ventricular integrity-lost and increased connective-tissue around myofibrils. Analysis of in situ ECG-recordings showed markedly shorten QT-interval and depressed QRP with increased heart-rate. We also observed augmented oxidative stress and decreased antioxidant defense characterized with decreases in serum total thiol-level and attenuated paraoxonase and arylesterase activities. Our data clearly indicate that increased heart-rate and shortened QT-interval concomitant with higher left ventricular developed pressure responses to β-adrenoreceptor stimulation as a result of less cAMP-release could be regarded as natural compensation mechanisms in overweight MetS rats. Since MetS leads further to persistent insulin-resistance and obesity, one should get into consideration these important facts associated with onset of the depressed heart-work, the increased heart-rate and shorten QT-interval in highcarbohydrate intake, which will possible lead to more deleterious effects on mammalian heart.

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Section: R a F Tmentioning

confidence: 99%

Onset of decreased heart work is correlated with increased heart rate and shortened QT interval in high-carbohydrate fed overweight rats

Durak

Olğar

Tuncay

et al. 2017

Can. J. Physiol. Pharmacol.

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“…With regard to Ca V 1.2, the studies report either no changes [21,25,26,41,50,58,59] or a significant reduction in the activity and/or expression [39,60]. The experimental models were myocytes from either S-IDRs or knock-out mice for leptin (ob/ob).…”

Section: Alterations In Ca V 12 and Ryr2mentioning

confidence: 99%

Functional and structural impact of pirfenidone on the alterations of cardiac disease and diabetes mellitus

et al. 2014

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“…Animal tissue has also been cultured for this purpose by Greulich et al () (guinea pigs and rats), Chilukoti et al () (pigs and rats) and Lage et al () (neonatal rats and cell lines). The availability of a range of mouse knockout strains has also been exploited by Nevelsteen et al (), studying cardiac myocyte function and obesity, although not specifically EAT, and by Castro et al (). This group reported on a wide‐ranging project in which they studied the metabolomics by MS‐NMR and looked at circadian rhythms of brown and white adipose tissue.…”

Section: Studying Eat‐cardiac Myocyte Interactions Using Animal Modelsmentioning

confidence: 99%

Investigating interactions between epicardial adipose tissue and cardiac myocytes: what can we learn from different approaches?

Rietdorf

MacQueen

2017

British J Pharmacology

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Heart disease is a major cause of morbidity and mortality throughout the world. Some cardiovascular conditions can be modulated by lifestyle factors such as increased exercise or a healthier diet, but many require surgical or pharmacological interventions for their management. More targeted and less invasive therapies would be beneficial. Recently it has become apparent that epicardial adipose tissue plays an important role in normal and pathological cardiac function, and it is now the focus of considerable research. Epicardial adipose tissue can be studied by imaging of various kinds, and these approaches have yielded much useful information. However at a molecular level it is more difficult to study as it is relatively scarce in animal models and, for practical and ethical reasons, not always available in sufficient quantities from patients. What is needed is a robust model system in which the interactions between epicardial adipocytes and cardiac myocytes can be studied, and physiologically relevant manipulations performed. There are drawbacks to conventional culture methods, not least the difficulty of culturing both cardiac myocytes and adipocytes, each of which has special requirements. We discuss the benefits of a three-dimensional coculture model in which in vivo interactions can be replicated. EAT and cardiac myocytesThis article is protected by copyright. All rights reserved.

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ACE-inhibition, but not weight reduction restores cardiomyocyte response to β-adrenergic stimulation in the metabolic syndrome

Cited by 14 publications

References 30 publications

Onset of decreased heart work is correlated with increased heart rate and shortened QT interval in high-carbohydrate fed overweight rats

Onset of decreased heart work is correlated with increased heart rate and shortened QT interval in high-carbohydrate fed overweight rats

Functional and structural impact of pirfenidone on the alterations of cardiac disease and diabetes mellitus

Investigating interactions between epicardial adipose tissue and cardiac myocytes: what can we learn from different approaches?

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