Protective Role of Increased Myocardial Glycogen Stores in Cardiac Anoxia in the Rat

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Circulation Research. 1970;27:835-849

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(Circulation Research. 1970;27:835.)
© 1970 American Heart Association, Inc.

Protective Role of Increased Myocardial Glycogen Stores in Cardiac Anoxia in the Rat

JAMES SCHEUER M.D.¹ S. William STEZOSKI ¹

¹ Division of Cardiology, Department of Medicine, University of Pittsburgh School of Medicine Pittsburgh, Pennsylvania 15213

To determine whether increased glycogen stores might protectthe heart against anoxia, experiments were performed in theisolated perfused rat heart. Marked differences in cardiac glycogenwere produced by comparing hearts from rats previously treatedwith reserpine with hearts from control rats. Lesser differencesin cardiac glycogen were produced in hearts by perfusing themfor 15 minutes without glucose (0 mM glucose) or with 20 mMglucose. Both groups were then studied during a 5-minute anoxiccycle with 5 mM glucose as the exogenous substrate. Hearts fromthe reserpine-treated rats had higher left ventricular pressures,maximal rate of left ventricular pressure rise, and lactateoutput after 2 minutes of anoxia than the hearts from controlrats. Similar but less marked mechanical differences were observedbetween 0 mM glucose and 20 mM glucose hearts. The mechanicaldifferences during anoxia between the two groups were not abolishedby simultaneous L-norepinephrine administration. Hearts withgreater initial glycogen stores had higher glycogenolytic rates,and proportionately more lactate was produced from glycogenthan from glucose. Thus, anaerobic ATP production per mole ofhexose was greater in hearts with higher glycogen stores. CalculatedATP production was also greater in hearts from the reserpine-treatedrats than in those from control animals.

These studies demonstratethat both marked and minor elevations in cardiac glycogen areassociated with greater glycolytic reserve and improved mechanicalresistance to anoxia. This appears to be mainly due to enhancedglycogenolysis and anaerobic ATP production.

Key Words: myocardial metabolism • glycogen • glycogenolysis • lactate • glycolysis • anoxia • reserpine • catecholamines • myocardial energetics • high-energy phosphates

Submitted on July 7, 1970
Accepted on September 28, 1970

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