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Literature DB >> 16831433

Storage and oxidation of long-chain fatty acids in the C57/BL6 mouse heart as measured by NMR spectroscopy.

Kimberly A Stowe¹, Shawn C Burgess, Matthew Merritt, A Dean Sherry, Craig R Malloy.

Abstract

Triglyceride turnover in the isolated C57/BL6 mouse heart was measured by dynamic 13C edit-(1)H observe NMR and the rate of fatty acid oxidation was determined by 13C NMR isotopomer analysis. In the presence of a physiological mixture of substrates, energy was produced in the citric acid cycle by oxidation of long-chain fatty acids (18%), ketones (34%), lactate (24%), pyruvate (7%), and other sources (17%). Exogenous fatty acids appeared in the triglyceride pool at 0.24 micromol/g dry wt/min, similar to the rate of oxidation of long-chain fatty acids, 0.16 micromol/g dry wt/min. Isoproterenol decreased the rate of de novo triglyceride synthesis and increased the rate of fatty acid oxidation.

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Year: 2006 PMID： 16831433 DOI： 10.1016/j.febslet.2006.06.068

Source DB: PubMed Journal: FEBS Lett ISSN： 0014-5793 Impact factor: 4.124

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Cited

23 in total

1. Preferential oxidation of triacylglyceride-derived fatty acids in heart is augmented by the nuclear receptor PPARalpha.

Authors: Natasha H Banke; Adam R Wende; Teresa C Leone; J Michael O'Donnell; E Dale Abel; Daniel P Kelly; E Douglas Lewandowski
Journal: Circ Res Date: 2010-06-03 Impact factor: 17.367

2. Adaptation of myocardial substrate metabolism to a ketogenic nutrient environment.

Authors: Anna E Wentz; D André d'Avignon; Mary L Weber; David G Cotter; Jason M Doherty; Robnet Kerns; Rakesh Nagarajan; Naveen Reddy; Nandakumar Sambandam; Peter A Crawford
Journal: J Biol Chem Date: 2010-06-07 Impact factor: 5.157

Review 3. Assessing Cardiac Metabolism: A Scientific Statement From the American Heart Association.

Authors: Heinrich Taegtmeyer; Martin E Young; Gary D Lopaschuk; E Dale Abel; Henri Brunengraber; Victor Darley-Usmar; Christine Des Rosiers; Robert Gerszten; Jan F Glatz; Julian L Griffin; Robert J Gropler; Hermann-Georg Holzhuetter; Jorge R Kizer; E Douglas Lewandowski; Craig R Malloy; Stefan Neubauer; Linda R Peterson; Michael A Portman; Fabio A Recchia; Jennifer E Van Eyk; Thomas J Wang
Journal: Circ Res Date: 2016-03-24 Impact factor: 17.367

4. Biotinylation: a novel posttranslational modification linking cell autonomous circadian clocks with metabolism.

Authors: Lan He; J Austin Hamm; Alex Reddy; David Sams; Rodrigo A Peliciari-Garcia; Graham R McGinnis; Shannon M Bailey; Chi-Wing Chow; Glenn C Rowe; John C Chatham; Martin E Young
Journal: Am J Physiol Heart Circ Physiol Date: 2016-04-15 Impact factor: 4.733

Storage and oxidation of long-chain fatty acids in the C57/BL6 mouse heart as measured by NMR spectroscopy.

1. Preferential oxidation of triacylglyceride-derived fatty acids in heart is augmented by the nuclear receptor PPARalpha.

2. Adaptation of myocardial substrate metabolism to a ketogenic nutrient environment.

Review 3. Assessing Cardiac Metabolism: A Scientific Statement From the American Heart Association.

4. Biotinylation: a novel posttranslational modification linking cell autonomous circadian clocks with metabolism.

Review 5. Magnetic resonance imaging and spectroscopy of the murine cardiovascular system.

6. Remodeling of substrate consumption in the murine sTAC model of heart failure.

Review 7. Sphingolipids, lipotoxic cardiomyopathy, and cardiac failure.

8. Lipid metabolism and toxicity in the heart.

Review 9. Regulation of myocardial metabolism by the cardiomyocyte circadian clock.

Review 10. Fuel availability and fate in cardiac metabolism: A tale of two substrates.