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, Wynn G.; Kelly, Jacob P.; McGarrah, Robert W.; Khouri, Michel G.; Craig, Damian M.; Haynes, Carol; Ilkayeva, Olga; Stevens, Robert; Bain, James R.; Muehlbauer, Michael J.; Newgard, Christopher B.; Felker, G. Michael; Hernandez, Adrian F.; Velázquez, Eric J.; Kraus, William E.; Shah, Svati H.

doi:10.1161/jaha.115.003190

Cited by 186 publications

(141 citation statements)

References 89 publications

(185 reference statements)

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“…Many studies indicate that acylcarnitine accumulation is a result of incomplete FA oxidation [1,2,5,29]. Indeed, during ischemia or heart failure, acylcarnitines accumulate in mitochondria because of a transient or permanent inhibition of FA-dependent oxidative phosphorylation in mitochondria [10,30,31]. However, our results indicate that in certain conditions such as the fasted state, the physiologically important LC acylcarnitine accumulation is a result of their CPT-1-driven overproduction coupled to a high FA oxidation rate.…”

Section: Discussionmentioning

confidence: 61%

Acute and long‐term administration of palmitoylcarnitine induces muscle‐specific insulin resistance in mice

et al. 2017

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Acylcarnitine accumulation has been linked to perturbations in energy metabolism pathways. In this study, we demonstrate that long-chain (LC) acylcarnitines are active metabolites involved in the regulation of glucose metabolism in vivo. Single-dose administration of palmitoylcarnitine (PC) in fed mice induced marked insulin insensitivity, decreased glucose uptake in muscles, and elevated blood glucose levels. Increase in the content of LC acylcarnitine induced insulin resistance by impairing Akt phosphorylation at Ser473. The long-term administration of PC using slow-release osmotic minipumps induced marked hyperinsulinemia, insulin resistance, and glucose intolerance, suggesting that the permanent accumulation of LC acylcarnitines can accelerate the progression of insulin resistance. The decrease of acylcarnitine content significantly improved glucose tolerance in a mouse model of dietinduced glucose intolerance. In conclusion, we show that the physiological increase in content of acylcarnitines ensures the transition from a fed to fasted state in order to limit glucose metabolism in the fasted state. In the fed state, the inability of insulin to inhibit LC acylcarnitine production induces disturbances in glucose uptake and metabolism. The reduction of acylcarnitine content could be an effective strategy to improve insulin sensitivity.

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Section: Discussionmentioning

confidence: 61%

Acute and long‐term administration of palmitoylcarnitine induces muscle‐specific insulin resistance in mice

et al. 2017

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“…The current wealth of literature pertaining to metabolomics in CVD is largely focused on symptomatic cohorts with clinical CVD. [19][20][21][22] While there are community-based studies that have looked at the association between metabolomic signatures and CVD and function, 23,24 few have studied the elderly. The study by Rizza et al 25 looked at a high-risk cohort of elderly subjects in which over half of the participants had documented coronary artery disease or stroke.…”

Section: Discussionmentioning

confidence: 99%

Metabolomic profile of arterial stiffness in aged adults

Koh

Gao

Liu

et al. 2017

Diabetes and Vascular Disease Research

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“…8 Furthermore, circulating acylcarnitines are increased in patients with HF and preserved EF and are further increased in patients with HF and reduced EF. 24 Increased circulating acylcarnitines was 1 of the main features in a cohort of principally ischemic patients with HF compared to healthy subjects. 25 As in the latter study, we noted an increase in circulating dicarboxylic acylcarnitines, suggesting that both mitochondrial beta oxidation as well as peroxisomal omega oxidation become implicated.…”

Section: Changes In Metabolites Reflect Pathophysiologic Pathways Drmentioning

confidence: 99%

Metabolic Profiling Associates with Disease Severity in Nonischemic Dilated Cardiomyopathy

Verdonschot

Wang

Bilsen

et al. 2020

Journal of Cardiac Failure

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Background: Metabolomic profiling may have diagnostic and prognostic value in heart failure. This study investigated whether targeted blood and urine metabolomics reflects disease severity in patients with nonischemic dilated cardiomyopathy (DCM) and compared its incremental value on top of N-terminal prohormone of brain natriuretic peptide (NT-proBNP). Methods and Results: A total of 149 metabolites were measured in plasma and urine samples of 273 patients with DCM and with varying stages of disease (patients with DCM and normal left ventricular reverse remodeling, n = 70; asymptomatic DCM, n = 72; and symptomatic DCM, n = 131). Acylcarnitines, sialic acid and glutamic acid are the most distinctive metabolites associated with disease severity, as repeatedly revealed by unibiomarker linear regression, sparse partial least squares discriminant analysis, random forest, and conditional random forest analyses. However, the absolute difference in the metabolic profile among groups was marginal. A decision-tree model based on the top metabolites did not surpass NT-proBNP in classifying stages. However, a combination of NT-proBNP and the top metabolites improved the decision tree to distinguish patients with DCM and left ventricular reverse remodeling from symptomatic DCM (area under the curve 0.813 § 0.138 vs 0.739 § 0.114; P = 0.02). Conclusion: Functional cardiac recovery is reflected in metabolomics. These alterations reveal potential alternative treatment targets in advanced symptomatic DCM. The metabolic profile can complement NT-proBNP in determining disease severity in nonischemic DCM.

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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

Cited by 186 publications

References 89 publications

Acute and long‐term administration of palmitoylcarnitine induces muscle‐specific insulin resistance in mice

Acute and long‐term administration of palmitoylcarnitine induces muscle‐specific insulin resistance in mice

Metabolomic profile of arterial stiffness in aged adults

Metabolic Profiling Associates with Disease Severity in Nonischemic Dilated Cardiomyopathy

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