Changes in citric acid cycle flux and anaplerosis antedate the functional decline in isolated rat hearts utilizing acetoacetate.
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Assessing the reversibility of the anaplerotic reactions of the propionyl-CoA pathway in heart and liverEvidence of Glycolysis Up-Regulation and Pyruvate Mitochondrial Oxidation Mismatch During Mechanical Unloading of the Failing Human Heart: Implications for Cardiac Reloading and ConditioningAdaptation of myocardial substrate metabolism to a ketogenic nutrient environment.Kinetic analysis of dynamic 13C NMR spectra: metabolic flux, regulation, and compartmentation in hearts.Treatment of cardiomyopathy and rhabdomyolysis in long-chain fat oxidation disorders using an anaplerotic odd-chain triglycerideCardiac anaplerosis in health and disease: food for thought.Mechanical unloading promotes myocardial energy recovery in human heart failure.Altered systemic ketone body metabolism in advanced heart failure.Coenzyme A sequestration in rat hearts oxidizing ketone bodies.Muscle ring finger-3 protects against diabetic cardiomyopathy induced by a high fat diet.Competition between acetate and oleate for the formation of malonyl-CoA and mitochondrial acetyl-CoA in the perfused rat heart.Metabolomic approach to profile functional and metabolic changes in heart failure.The Failing Heart Relies on Ketone Bodies as a Fuel.Evidence for Intramyocardial Disruption of Lipid Metabolism and Increased Myocardial Ketone Utilization in Advanced Human Heart Failure.Ketone body metabolism and cardiovascular diseaseInsulin-stimulated cardiac glucose oxidation is increased in high-fat diet-induced obese mice lacking malonyl CoA decarboxylase.Effects of Glutamate and Aspartate on Serum Antioxidative Enzyme, Sex Hormones, and Genital Inflammation in Boars Challenged with Hydrogen Peroxide.Metabolomic profiling reveals distinct patterns of myocardial substrate use in humans with coronary artery disease or left ventricular dysfunction during surgical ischemia/reperfusion.Cardiac metabolism in heart failure: implications beyond ATP production.Lactate clearance in the acutely traumatized patient.Matrix revisited: mechanisms linking energy substrate metabolism to the function of the heart.Triheptanoin: long-term effects in the very long-chain acyl-CoA dehydrogenase-deficient mouse.A comprehensive review of the bioenergetics of fatty acid and glucose metabolism in the healthy and failing heart in nondiabetic condition.Metabolic remodelling in hypertrophied and failing myocardium: a review.Regulation of exogenous and endogenous glucose metabolism by insulin and acetoacetate in the isolated working rat heart. A three tracer study of glycolysis, glycogen metabolism, and glucose oxidation.Dipropionylcysteine ethyl ester compensates for loss of citric acid cycle intermediates during post ischemia reperfusion in the pig heartIGF-I promotes a shift in metabolic flux in vascular smooth muscle cells.Mitochondrial colocalization with Ca2+ release sites is crucial to cardiac metabolism.Point: should lactate clearance be substituted for central venous oxygen saturation as goals of early severe sepsis and septic shock therapy? Yes.Low T3 State Is Correlated with Cardiac Mitochondrial Impairments after Ischemia Reperfusion Injury: Evidence from a Proteomic Approach.Quantitative assessment of anaplerosis from propionate in pig heart in vivo.Hepatic expression of malonyl-CoA decarboxylase reverses muscle, liver and whole-animal insulin resistance.Dietary supplementation with L-glutamate and L-aspartate alleviates oxidative stress in weaned piglets challenged with hydrogen peroxide.Estimation of TCA cycle flux, aminotransferase flux, and anaplerosis in heart: validation with syntactic model.Differential effects of heptanoate and hexanoate on myocardial citric acid cycle intermediates following ischemia-reperfusion.Cardiac Metabolism in Perspective.The effect of aspartate on the energy metabolism in the liver of weanling pigs challenged with lipopolysaccharide.Modeling enrichment kinetics from dynamic 13C-NMR spectra: theoretical analysis and practical considerations.Metabolic Mechanisms of Exercise-Induced Cardiac Remodeling
P2860
Q28181814-19819DAC-1603-4625-A7B0-A0FA52C276E3Q33651722-B1A80E63-E3A2-4687-8C90-536E4DDA9DE5Q34042546-5FAB03B2-9BFA-4047-8816-4734AF74E2F1Q34047635-4D106CE3-40D3-4C27-A8AA-0648C47045B4Q34793960-6032A3CE-0490-4E93-8828-A9024CA9DBBBQ34808534-0D59D1F9-63C9-447E-B04E-817A519588A2Q35388367-7445C720-96D0-4AB1-BD77-AEFDD09778FEQ35594825-D34BAC6F-AD77-4BBE-9E2E-8513E88A1B1BQ35599558-F78C50F1-F1F2-4EF3-BB43-DD894702E4B8Q35716907-6CE58CB8-42E0-4B36-B28F-321183A2C2C2Q35928419-50CBBAD1-F543-481B-8992-C44DAC52A965Q36053950-0A19DF8C-0134-4910-9265-AD2D4BD4F78EQ36614537-97B73412-656D-4E8C-A661-E652E626F909Q36654675-8BC35F33-F489-4A17-8F77-A3049F89ADB9Q36764435-AB73D6AF-A0DD-44A4-A2DB-C63992383FBBQ37267092-9CC358E0-6C11-4F5C-A9BB-56CBA1B95E01Q37335224-EF78F72F-22C2-42AD-9ACF-3FD3F073DF79Q37374980-1007CCCD-A3CC-4946-AD0A-AF45B44E1E24Q37495811-49FC50E3-32AA-48C8-A614-CF472878C735Q37696161-EC1B2189-720B-4064-8FC6-AC2DD2A6E78EQ38187952-40A0874A-9BCE-4454-9352-BF68EAB34698Q39155516-59120DAB-6642-4410-BE78-B2F15DD8DC92Q39325799-96C3EAC9-6DC6-46E5-AD90-39977B7F01DCQ39395331-65081685-C2FD-401B-BDA1-6058A14F6DE0Q39795258-2A13767F-0D4A-4383-8646-AE656DF299CDQ40641603-06E4558C-410E-4798-94DB-D1AD243C781CQ40711810-43F0B719-7430-47CE-955A-61DAF4E7595FQ41853409-64FBFF19-A24E-4114-9B1E-048A526FDF01Q43028094-C0594CE8-DEBC-4C0D-835C-A68EFBCA54DFQ43152861-553A93EA-67DB-4392-AFFF-2F01131A8585Q44185325-8A5FD3C2-FFDC-44E2-B396-8ACE2976E6A4Q44760628-7404D709-DBC8-4942-8842-1DB52FB726A4Q44858948-BCCE4404-1126-48E3-B520-7F70643BA0A8Q45943377-1735528E-5FDC-457A-894F-6D6C9A0F9B6AQ46686050-3A01FDC1-57CF-4377-B913-CA0BA41CB7ACQ47633793-2890D45B-A6FE-46C0-90A8-4E899C1F3311Q47747270-E74C53EF-E409-4979-B98B-4BC027CE61C5Q52262939-6D817693-3AD6-4404-9B32-F297787BB6FDQ58750834-08A56D0C-9D2F-4BF3-952E-B1B4E7F8359D
P2860
Changes in citric acid cycle flux and anaplerosis antedate the functional decline in isolated rat hearts utilizing acetoacetate.
description
1991 nî lūn-bûn
@nan
1991 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1991 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
name
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@ast
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@en
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@nl
type
label
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@ast
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@en
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@nl
prefLabel
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@ast
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@en
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@nl
P2860
P356
P1476
Changes in citric acid cycle f ...... hearts utilizing acetoacetate.
@en
P2093
H Taegtmeyer
R R Russell
P2860
P304
P356
10.1172/JCI115008
P407
P577
1991-02-01T00:00:00Z