Cardiac Resynchronization Therapy Induces Adaptive Metabolic Transitions in the Metabolomic Profile of Heart Failure

Nemutlu, Emirhan; Zhang, Song; Xu, Yi; Terzic, André; Zhong, Li; Dzeja, Petras D.; Mei, Yong

doi:10.1016/j.cardfail.2015.04.005

Cited by 55 publications

(45 citation statements)

References 59 publications

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“…27 Furthermore, examination of plasma metabolomic profiles showed that patients with HF who respond to cardiac resynchronization therapy have higher baseline levels of BCAAs (including valine, leucine, isoleucine, and phenylalanine) and lower glutamate levels than non-responders. 52 Although BCAAs appear to have therapeutic potential against HF, there is also evidence of a pathological role in cardiac metabolic dysfunction. It was recently reported that Krüppel-like factor 15 suppressed BCAA catabolism in a murine HF model, with impairment of BCAA catabolism reducing cardiac function and promoting HF in the setting of LV pressure overload, together with elevated superoxide production and cardiac metabolic remodeling.…”

Section: Metabolites Of Glycolysis and The Tca Cyclementioning

confidence: 99%

Metabolomic Analysis in Heart Failure

Ikegami

Shimizu

Yoshida

et al. 2018

Circ J

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10 s, resulting in the cycling of approximately 6 kg of ATP daily, and the heart displays metabolic flexibility to meet this extremely high demand for energy. 8 Under normal conditions, more than 95% of the ATP consumed in the heart is generated by oxidative phosphorylation, while glycolysis is responsible for approximately 5% and the tricarboxylic acid (TCA) cycle for the remainder. Metabolism of fatty acids generates 70-90% of the ATP required by the heart, with the rest being produced by oxidation of glucose, lactate, ketone bodies, and amino acids. 9 It is well known that utilization of fatty acids is reduced in the failing heart and there is a metabolic shift to generation of ATP from glucose. Such metabolic remodeling is considered to be reasonable because HF is associated with hypoxia and ATP generation per oxygen atom is more efficient when glucose is consumed, compared with fatty acids. 9 In patients with advanced HF, the heart is unable to utilize either metabolite and thus "runs out of fuel". 10 It is reported that the ATP level is approximately 30% lower in failing human hearts compared with non-failing hearts. 11 In addition to this classical premise about the metabolic profile of the failing heart, recent advances in the field of metabolomics have indicated that several metabolites and/or metabolic pathways have a role in HF, as described next. LipidsUnder physiological conditions, the heart mainly generates ATP from fatty acids, but this process declines with progression of HF. Under left ventricular (LV) pressure overload, excessive lipolysis occurs in visceral fat because of increased adrenergic signaling, and this leads to high circulating levels of free fatty acids (FFAs). 12 The serum I t is thought that at least 6,500 low-molecular-weight metabolites exist in humans, and these metabolites have various important roles in biological systems in addition to proteins and genes. 1 Comprehensive assessment of endogenous metabolites is called metabolomics, and recent advances in this field have enabled us to understand the critical role of previously unknown metabolites or metabolic pathways in the maintenance of homeostasis under both physiological and stress conditions. Techniques of metabolomic analysis have been elegantly reported and reviewed elsewhere, 2-4 so the details will not be repeated here. Instead, we will describe the metabolites/metabolic pathways that have been characterized using these techniques and analyzed to improve understanding of various physiological and pathological processes in the field of cardiology. In particular, we will focus on heart failure (HF) and how metabolomic analysis has contributed for improving our understanding of the pathogenesis of this critical condition. Cardiac MetabolismThe number of patients with HF continues to increase and this condition has become a major healthcare issue in many countries. Because the prognosis of severe HF is poor, there are many unmet medical needs for these patients, 5, 6 The pathogenesis of HF is complex and a simple approa...

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Section: Metabolites Of Glycolysis and The Tca Cyclementioning

confidence: 99%

Metabolomic Analysis in Heart Failure

Ikegami

Shimizu

Yoshida

et al. 2018

Circ J

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“…Other sources of data such as genomic, metabolomic or other biomarker information may also be additive to a global model of risk. For example, recent studies have demonstrated that metabolomics may not only be diagnostic for heart failure, but also predictive of responses to cardiac resynchronization and ICD therapies [49][50][51][52]. Integrating electrobiochemical 'omic information may yield further predictive information, which cannot be yielded by any individual method separately [53,54].…”

Section: Discussionmentioning

confidence: 99%

ECG-Derived Spatial QRS-T Angle Is Associated with ICD Implantation, Mortality and Heart Failure Admissions in Patients with LV Systolic Dysfunction

Gladding

Gleeson

Liao

et al. 2017

Heart, Lung and Circulation

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“…Systolic heart failure is also associated with inter-and intraventricular conduction disturbances and dyssynchrony, which are responsible for further impairment in systolic function. Nemutlu et al [100] indicated that resynchronization therapy (CRT) may improve plasma metabolic profile within the most important metabolites, including fatty acids, amino acids, lipids and Krebs cycle intermediates. Nevertheless, there were still some metabolites the level of which did not restore to the normal range, suggesting an existence of CRT-independent metabolic disturbances or pathways [100].…”

Section: Potential Implications For the Treatment Of Heart Failurementioning

confidence: 99%

Metabolomics — A wide-open door to personalized treatment in chronic heart failure?

Marcinkiewicz-Siemion

Ciborowski

Krętowski

et al. 2016

International Journal of Cardiology

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Cardiac Resynchronization Therapy Induces Adaptive Metabolic Transitions in the Metabolomic Profile of Heart Failure

Cited by 55 publications

References 59 publications

Metabolomic Analysis in Heart Failure

Metabolomic Analysis in Heart Failure

ECG-Derived Spatial QRS-T Angle Is Associated with ICD Implantation, Mortality and Heart Failure Admissions in Patients with LV Systolic Dysfunction

Metabolomics — A wide-open door to personalized treatment in chronic heart failure?

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