Matrix Revisited

Carley, Andrew N.; Taegtmeyer, Heinrich; Lewandowski, E. Douglas

doi:10.1161/circresaha.114.301863

Cited by 90 publications

(53 citation statements)

References 152 publications

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“…As a reflection of impaired or dysregulated FAO, the elevated plasma LCAC observed may suggest a shared metabolic impairment of the HF clinical syndrome independent of LVEF 13, 53, 54. Given that FAO impairments or dysregulation may result from a variety of mitochondrial insults, further investigation will be needed to identify the causal processes underlying the LCAC elevations reported in this study 12, 83. Given mounting evidence that LCACs are proinflammatory, arrhythmogenic, and induce cell stress, our findings may suggest a benefit for mitochondrial therapies that decrease LCAC production by increasing glucose oxidation, decreasing FAO flux, or improving mitochondrial function by antioxidant activity 63, 64, 65, 66, 67, 68.…”

Section: Discussionmentioning

confidence: 90%

“…In recent years, greater attention has been focused on systemic mediators, such as oxidative stress, inflammation, and mitochondrial dysfunction 8, 9, 11. Emerging evidence is also reviving interest in metabolic impairment as a contributor to HFpEF development and progression 8, 9, 12, 13. However, these investigations have largely been conducted in animal models; there is a paucity of data characterizing metabolism in human HFpEF.…”

Section: Introductionmentioning

confidence: 99%

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Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Hunter

Kelly

McGarrah

et al. 2016

JAHA

194

137

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BackgroundMetabolic impairment is an important contributor to heart failure (HF) pathogenesis and progression. Dysregulated metabolic pathways remain poorly characterized in patients with HF and preserved ejection fraction (HFpEF). We sought to determine metabolic abnormalities in HFpEF and identify pathways differentially altered in HFpEF versus HF with reduced ejection fraction (HFrEF).Methods and ResultsWe identified HFpEF cases, HFrEF controls, and no‐HF controls from the CATHGEN study of sequential patients undergoing cardiac catheterization. HFpEF cases (N=282) were defined by left ventricular ejection fraction (LVEF) ≥45%, diastolic dysfunction grade ≥1, and history of HF; HFrEF controls (N=279) were defined similarly, except for having LVEF <45%. No‐HF controls (N=191) had LVEF ≥45%, normal diastolic function, and no HF diagnosis. Targeted mass spectrometry and enzymatic assays were used to quantify 63 metabolites in fasting plasma. Principal components analysis reduced the 63 metabolites to uncorrelated factors, which were compared across groups using ANCOVA. In basic and fully adjusted models, long‐chain acylcarnitine factor levels differed significantly across groups (P<0.0001) and were greater in HFrEF than HFpEF (P=0.0004), both of which were greater than no‐HF controls. We confirmed these findings in sensitivity analyses using stricter inclusion criteria, alternative LVEF thresholds, and adjustment for insulin resistance.ConclusionsWe identified novel circulating metabolites reflecting impaired or dysregulated fatty acid oxidation that are independently associated with HF and differentially elevated in HFpEF and HFrEF. These results elucidate a specific metabolic pathway in HF and suggest a shared metabolic mechanism in HF along the LVEF spectrum.

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Section: Discussionmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Hunter

Kelly

McGarrah

et al. 2016

JAHA

194

137

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“…Cardiac cine imaging measured a two-fold increase in cardiac output, which is known to couple to TCA cycle turnover. 38 Via the [2-13 C]pyruvate label, 13 C-glutamate production remained constant on adrenergic activation, such that the 13 C-glutamate produced relative to the amount of 13 C-labeled acetyl-CoA entering the TCA cycle was decreased by 36%.…”

Section: Resultsmentioning

confidence: 99%

Probing the cardiac malate–aspartate shuttle non‐invasively using hyperpolarized [1,2‐¹³C₂]pyruvate

Chen

Lau

et al. 2017

NMR in Biomedicine

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Previous studies have demonstrated that using hyperpolarized [2-13 C]pyruvate as a contrast agent can reveal 13 C signals from metabolites associated with the tricarboxylic acid (TCA) cycle.However, the metabolites detectable from TCA cycle-mediated oxidation of [2-13 C]pyruvate are the result of several metabolic steps. In the instance of the [5-13 C]glutamate signal, the amplitude can be modulated by changes to the rates of pyruvate dehydrogenase (PDH) flux, TCA cycle flux and metabolite pool size. Also key is the malate-aspartate shuttle, which facilitates the transport of cytosolic reducing equivalents into the mitochondria for oxidation via the malate-α-ketoglutarate transporter, a process coupled to the exchange of cytosolic malate for mitochondrial α-ketoglutarate. In this study, we investigated the mechanism driving the observed changes to hyperpolarized [2-13 C]pyruvate metabolism. Using hyperpolarized [1,2-13 C]pyruvate with magnetic resonance spectroscopy (MRS) in the porcine heart with different workloads, it was possible to probe 13 C-glutamate labeling relative to rates of cytosolic metabolism, PDH flux and TCA cycle turnover in a single experiment non-invasively. Via the [1-13 C]pyruvate label, we observed more than a five-fold increase in the cytosolic conversion of pyruvate to [1-13 C]lactate and [1-13 C]alanine with higher workload. 13 C-Bicarbonate production by PDH was increased by a factor of 2.2. Cardiac cine imaging measured a two-fold increase in cardiac output, which is known to couple to TCA cycle turnover. Via the [2-13 C]pyruvate label, we observed that 13 C-acetylcarnitine production increased 2.5-fold in proportion to the 13 C-bicarbonate signal, whereas the 13 C-glutamate metabolic flux remained constant on adrenergic activation. Thus, the 13 C-glutamate signal relative to the amount of 13 C-labeled acetyl-coenzyme A (acetylCoA) entering the TCA cycle was decreased by 40%. The data strongly suggest that NADH (reduced form of nicotinamide adenine dinucleotide) shuttling from the cytosol to the mitochondria via the malate-aspartate shuttle is limited on adrenergic activation. Changes in [5-13 C]glutamate production from [2-13 C]pyruvate may play an important future role in non-invasive myocardial assessment in patients with cardiovascular diseases, but careful interpretation of the results is required.

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“…It is well known that falling heart will switch fuel metabolism from long chain fatty acids to glucose, but in people with MS also glucose is less available for the heart due to the fact that people with MS have profound insulin resistance and reduced glucose uptake, especially in the presence of ischemia [23]. This may explain why the presence of non-ischemic etiology for HF is associated with better clinical response after CRT-D in general population [19,24] and in our study, in people with MS.…”

Section: Discussionmentioning

confidence: 99%

Metabolic syndrome is associated with different clinical outcome after cardiac resynchronization therapy in patients with ischemic and non-ischemic cardiomyopathy

et al. 2016

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Background: Although association of metabolic syndrome (MS) and ischemic heart disease is strongly established, it is not known whether presence of MS may differently influence clinical responses to cardiac resynchronization therapy (CRT). The aim of this study was to evaluate the associations between obesity and metabolic features and the clinical outcome after cardiac resynchronization with defibrillator therapy (CRT-D), compared to an implantable cardioverter defibrillator (ICD). Methods: The risk of heart failure (HF) or death and death alone was evaluated in 829 non--obese patients, 156 obese patients without MS, and 277 obese patients with MS (all with left bundle branch block), who were enrolled in the Multicenter Automatic Defibrillator Implantation Trial with Cardiac Resynchronization Therapy (MADIT-CRT).Results: Obese patients with MS (HR 0.50, p = 0.002), obese patients without MS (HR 0.57, p = 0.077), and non-obese patients (HR 0.48, p < 0.001 (HR 0.11, p < 0.001), whereas obese patients without MS had no reduction (HR 0.98, p = 0.951; interaction p < 0.001). The reverse was observed in ischemic cardiomyopathy patients: obese patients with MS had no reduction in the risk of HF/death (HR 0.80, p = 0.402), while obese patients without MS showed a significant reduction in the risk of events (HR 0.15, p = 0.011; interaction p = 0.036). Similar trends were observed for the endpoint of death. (Cardiol J 2016; 23, 3: 344-351) ) had a similar risk reduction of HF/death in response to CRT-D therapy when compared to ICD patients. However, among those with non-ischemic cardiomyopathy, obese patients with MS experienced a 90% reduction for HF/death Conclusions: Presence of MS differentiates the response to CRT in obese patients with ischemic and non-ischemic etiology for HF.

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Matrix Revisited

Cited by 90 publications

References 152 publications

Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Probing the cardiac malate–aspartate shuttle non‐invasively using hyperpolarized [1,2‐¹³C₂]pyruvate

Metabolic syndrome is associated with different clinical outcome after cardiac resynchronization therapy in patients with ischemic and non-ischemic cardiomyopathy

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Matrix Revisited

Cited by 90 publications

References 152 publications

Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Metabolomic Profiling Identifies Novel Circulating Biomarkers of Mitochondrial Dysfunction Differentially Elevated in Heart Failure With Preserved Versus Reduced Ejection Fraction: Evidence for Shared Metabolic Impairments in Clinical Heart Failure

Probing the cardiac malate–aspartate shuttle non‐invasively using hyperpolarized [1,2‐13C2]pyruvate

Metabolic syndrome is associated with different clinical outcome after cardiac resynchronization therapy in patients with ischemic and non-ischemic cardiomyopathy

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Probing the cardiac malate–aspartate shuttle non‐invasively using hyperpolarized [1,2‐¹³C₂]pyruvate